wcdma conf param - nsn ru20

WCDMA RAN, Rel. RU30, Operating Documentation, Parameters (Excel)

WCDMA Radio Network Configuration Parameters

Nokia Siemens Networks Proprietary and Confidential

DN00211177Issue 11L2012-02-15

The information in this document is subject to change without notice and describes only theproduct defined in the introduction of this documentation. This documentation is intended for theuse of Nokia Siemens Networks customers only for the purposes of the agreement under whichthe document is submitted, and no part of it may be used, reproduced, modified or transmittedin any form or means without the prior written permission of Nokia Siemens Networks. Thedocumentation has been prepared to be used by professional and properly trained personnel,and the customer assumes full responsibility when using it. Nokia Siemens Networks welcomescustomer comments as part of the process of continuous development and improvement of thedocumentation.

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Copyright © Nokia Siemens Networks 2012. All rights reserved

Important Notice on Product Safety Elevated voltages are inevitably present at specific points in this electrical equipment. Some of the parts may also have elevated operating temperatures.

Non-observance of these conditions and the safety instructions can result in personal injury or in property damage.

Therefore, only trained and qualified personnel may install and maintain the system.

The system complies with the standard EN 60950 / IEC 60950. All equipment connected has to comply with the applicable safety standards.

The same text in German: Wichtiger Hinweis zur Produktsicherheit In elektrischen Anlagen stehen zwangsläufig bestimmte Teile der Geräte unter Spannung. Einige Teile können auch eine hohe Betriebstemperatur aufweisen.

Eine Nichtbeachtung dieser Situation und der Warnungshinweise kann zu Körperverletzungen und Sachschäden führen.

Deshalb wird vorausgesetzt, dass nur geschultes und qualifiziertes Personal die Anlagen installiert und wartet.

Das System entspricht den Anforderungen der EN 60950 / IEC 60950. Angeschlossene Geräte müssen die zutreffenden Sicherheitsbestimmungen erfüllen.

WCDMA RAN, Rel. RU30, Operating Documentation, Parameters (Excel)

WCDMA Radio Network Configuration Parameters

Nokia Siemens Networks Proprietary and Confidential

DN00211177Issue 11L2012-02-15















MO Class Full Name Abbreviated Name 3GPP name

ADJD Change origin ADJDChangeOrigin

ADJD ADJDId

ADJD Cell Identifier AdjdCI Cell Identity; C-Id

ADJD Primary CPICH power AdjdCPICHTxPwr Primary CPICH power

ADJD AdjdDERR

ADJD HSDPA HOPS identifier AdjdHSDPAHopsId

ADJD Location Area Code AdjdLAC

ADJD Mobile Country Code AdjdMCC

ADJD Mobile Network Code AdjdMNC

ADJD AdjdMNCLength

ADJD NRT HOPS Identifier AdjdNRTHopsId

ADJD Routing Area Code AdjdRAC

ADJD RNC Identifier AdjdRNCId RNC Identifier; RNC-Id

ADJD RT HOPS Identifier AdjdRTHopsId

ADJD

ADJD AdjdScrCode Primary scrambling code

ADJD Tx Diversity Indicator AdjdTxDiv Tx diversity indicator

ADJG Change origin ADJGChangeOrigin

ADJG ADJGId

ADJG ADJGType

ADJG AdjgBCC

ADJG BCCH ARFCN AdjgBCCH BCCH ARFCN

ADJG Band Indicator AdjgBandIndicator Band indicator

ADJG Cell Identifier AdjgCI Cell Identifier; CI

ADJG Location Area Code AdjgLAC

ADJG Mobile Country Code AdjgMCC

ADJG Mobile Network Code AdjgMNC

ADJG AdjgMNCLength

ADJG Network Colour Code AdjgNCC

Identifier of additional intra-frequency adjacency

Disable Effect on Reporting Range

Cells forbidden to affect Reporting range

Location Area Code; LACMobile Country Code; MCCMobile Network Code; MNC

Mobile Network Code Length

Routing Area Code; RAC

HSDPA HOPS identifier for AMR multi-service

AdjdRTWithHSDPAHopsId

Primary Scrambling Code

Inter-system adjacency identifierInter-system Neighbour Cell TypeBase Station Colour Code

Base Station Colour Code (BCC)



Network Colour Code (NCC)

ADJG AdjgSIB

ADJG AdjgTxPwrMaxRACH

ADJG AdjgTxPwrMaxTCH

ADJG NRT HOPG Identifier NrtHopgIdentifier

ADJG RT HOPG Identifier RtHopgIdentifier

ADJI Change origin ADJIChangeOrigin

ADJI ADJIId

ADJI Cell Identifier AdjiCI Cell Identity; C-Id

ADJI Primary CPICH power AdjiCPICHTxPwr Primary CPICH power

ADJI

ADJI AdjiEcNoOffsetNCHO

ADJI

ADJI Location Area Code AdjiLAC

ADJI Mobile Country Code AdjiMCC

ADJI Mobile Network Code AdjiMNC

ADJI AdjiMNCLength

ADJI AdjiNCHOHSPASupport

ADJI Routing Area Code AdjiRAC

ADJI RNC Identifier AdjiRNCid RNC Identifier; RNC-Id

ADJI AdjiSIB

ADJI AdjiScrCode Primary scrambling code

ADJI Tx Diversity Indicator AdjiTxDiv Tx Diversity Indicator

ADJI AdjiTxPwrDPCH

ADJI AdjiTxPwrRACH

ADJI AdjiUARFCN UARFCN

ADJI Blind HO target cell BlindHOTargetCell

ADJI NRT HOPI Identifier NrtHopiIdentifier

ADJI RT HOPI Identifier RtHopiIdentifier

ADJL Change origin ADJLChangeOrigin

ADJL ADJLId

ADJL AdjLEARFCN EARFCN

ADJL AdjLMeasBw

Include in System InformationMaximum UE TX Power on RACH

Maximum allowed UL TX power; UE_TXPWR_MAX_RACH

Maximum UE TX Power on TCH

Inter-frequency adjacency identifier

NCHO activity of common load measurement DRNC cell

AdjiComLoadMeasDRNCCellNCHO

CPICH EcNo offset for the non-critical HO procedureHandling of blocked IF neighbour cell in SLHO procedure

AdjiHandlingBlockedCellSLHO


Mobile Network Code LengthADJI HSPA Cell for Non Critical Handover


Include in System InformationPrimary Scrambling Code

Maximum UE TX Power on DPCH

Maximum allowed UL TX power

Maximum UE TX Power on RACH


UTRA Absolute Radio Frequency Channel Number

Identifier of inter- system adjacency to LTEE-UTRA Absolute Radio Frequency Channel NumberMeasurement Bandwidth

Measurement Bandwidth

ADJL HOPL Identifier HopLIdentifier

ADJS Change origin ADJSChangeOrigin

ADJS ADJSId

ADJS Cell Identifier AdjsCI Cell Identity; C-Id

ADJS Primary CPICH power AdjsCPICHTxPwr Primary CPICH power

ADJS AdjsDERR

ADJS CPICH Ec/No Offset AdjsEcNoOffset Cell individual offset

ADJS Location Area Code AdjsLAC

ADJS Mobile Country Code AdjsMCC

ADJS Mobile Network Code AdjsMNC

ADJS AdjsMNCLength

ADJS Routing Area Code AdjsRAC

ADJS RNC Identifier AdjsRNCid RNC Identifier; RNC-Id

ADJS AdjsSIB

ADJS AdjsScrCode Primary scrambling code

ADJS Tx Diversity Indicator AdjsTxDiv Tx diversity indicator

ADJS AdjsTxPwrRACH

ADJS HSDPA HOPS identifier HSDPAHopsIdentifier

ADJS NRT HOPS Identifier NrtHopsIdentifier

ADJS

ADJS RT HOPS Identifier RtHopsIdentifier

CBCI CBCI Change Origin CBCIChangeOrigin

CBCI CBCI Identifier CBCIId

CBCI Type of CBC IP address CBCIPaddrType

CBCI IP address of the CBC CBCIPaddress

CBCI CBC PLMN id CBCPLMNId

CBCI Mobile Country Code MCC

CBCI Mobile Network Code MNC

CBCI MNCLength

CBCI ICSU for CBC ICSUforCBC

CMOB ACBarredListSystem Access Class Barred list

CMOB Change origin CMOBChangeOrigin

Intra-frequency adjacency identifier

Disable Effect on Reporting Range

Cells forbidden to affect Reporting range




Include in System InformationPrimary Scrambling Code

Maximum UE TX Power on RACH



RTWithHSDPAHopsIdentifier

Mobile Country Code; MCCMobile Network Code; MNC


Access Class Barred List given by System

CMOB CMOBId

CMOB Cell Access Restriction CellAccessRestriction

CMOB Restriction group name RestrictionGroupName

CMOB Restriction group type RestrictionGroupType

CMOB Traffic Restriction TrafficRestriction

COCO AAL2LossRatio

COCO BTS AAL2 multiplexing AAL2Multiplexing

COCO AAL2MuxDelay

COCO

COCO

COCO AAL2QueueHSUPA

COCO

COCO

COCO AAL2QueueRTDCH

COCO AAL2SignLinkTP

COCO AAL2SigCDVT01Egr

COCO AAL2SigCDVT01Ing

COCO

COCO AAL2SigEgressMDCR

COCO

COCO AAL2SigIngressMDCR

COCO

COCO AAL2SigPCR01Egr

COCO AAL2SigPCR01Ing

COCO

COCO

COCO AAL2SigTPAdmState

COCO AAL2SignLinkATMIfId

COCO AAL2SignLinkTPId

COCO AAL2SignLinkVCI

COCO AAL2SignLinkVPI

COCO AAL2TP

Congestion Management Group Identifier

AAL2 CPS-SDU loss ratio

AAL2 CPS-SDU multiplexing delayAAL2 Queue Length for HSDPA With Flow Control

AAL2QueueHSDPAWithFC

AAL2 Queue Length for HSDPA Without Flow Control

AAL2QueueHSDPAWithoutFC

AAL2 Queue Length for HSUPAAAL2 Queue Length for NRT DCH With Flow Control

AAL2QueueNRTDCHWithFC

AAL2 Queue Length for NRT DCH Without Flow Control

AAL2QueueNRTDCHWithoutFC

AAL2 Queue Length for RT DCHAAL2 signalling link configurationAAL2 signalling link VCLtp CDVT egressAAL2 signalling link VCLtp CDVT ingressAAL2 SL Early Packet Discard

AAL2SigEarlyPacketDiscard

AAL2 SL Egress Minimum Desired Cell RateAAL2 SL Egress UBR Share Weight Of Excessive Bandwidth

AAL2SigEgressUBRShare

AAL2 SL Ingress Minimum Desired Cell RateAAL2 SL Ingress UBR Share Weight Of Excessive Bandwidth

AAL2SigIngressUBRShare

AAL2 signalling link VCLtp PCR egressAAL2 signalling link VCLtp PCR ingressAAL2 SL Partial Packet Discard

AAL2SigPartialPacketDiscard

AAL2 SL Service Category

AAL2SigServiceCategory

AAL2 signalling link VCLtp effective administrative stateAAL2 signalling link ATM interface IdentifierAAL2 signalling link termination point Identifier AAL2 signalling link Virtual Channel IdentifierAAL2 signalling link Virtual Path IdentifierAAL2 user plane link configuration

COCO AAL2 Fallback attribute AAL2FallbAttribute

COCO AAL2PathId

COCO AAL2 Path Type AAL2PathType

COCO AAL2SignLinkATMIfId

COCO AAL2SignLinkVCI

COCO AAL2SignLinkVPI

COCO AAL2UPATMIfId

COCO AAL2UPCDVT01Egr

COCO AAL2UPCDVT01Ing

COCO AAL2UPEgressMDCR

COCO

COCO AAL2UPIngressMDCR

COCO

COCO AAL2UPPCR01Egr

COCO AAL2UPPCR01Ing

COCO

COCO AAL2UPTPAdmState

COCO AAL2UPUsage -

COCO AAL2UPVCI

COCO AAL2UPVPI

COCO ANI

COCO COCOA2EA

COCO Iub Digit analysis tree DATree

COCO Route identifier Route

COCO VCC In Bundle VCCInBundle -

COCO WAM identification WAMId

COCO ATM End Point Profile Id ATMEPProfileId

COCO ATM interface ATMInterface

COCO ATMIfAdmState

COCO ATMIfMaxBandwidthEgr

COCO ATMIfMaxBandwidthIng

COCO ATMIfMaxVCIBits

AAL type 2 path identifier

AAL2 signalling link ATM interface IdentifierAAL2 signalling link Virtual Channel IdentifierAAL2 sign link reference Virtual Path IdentifierAAL2 user plane ATM interface IdentifierAAL2 user plane link VCLtp CDVT egressAAL2 user plane link VCLtp CDVT ingressAAL2 UP Egress Minimum Desired Cell RateAAL2 UP Egress UBR Share Weight Of Excessive Bandwidth

AAL2UPEgressUBRShare

AAL2 UP Ingress Minimum Desired Cell RateAAL2 UP Ingress UBR Share Weight Of Excessive Bandwidth

AAL2UPIngressUBRShare

AAL2 user plane link VCLtp PCR egressAAL2 user plane link VCLtp PCR ingressAAL2 UP Service Category

AAL2UPServiceCategory

AAL2 user plane link VCLtp effective administrative stateAAL2 User Plane VCC UsageAAL2 user plane Virtual Channel IdentifierAAL2 user plane Virtual Path IdentifierAdjacent AAL type 2 node identifierAAL type 2 end point address for Iub

ATM interface administrative stateATM interface maximum bandwidth egressATM interface maximum bandwidth ingressATM interface maximum VCI bits

COCO ATMIfMaxVPIBits

COCO ATMIfPhysicalTTPId

COCO ATM interface identifier ATMInterfaceID

COCO ATM interface type ATMInterfaceType

COCO CNBAPTP

COCO CNBAPCDVT01Egr

COCO CNBAPCDVT01Ing

COCO

COCO CNBAPEgressMDCR

COCO

COCO CNBAPICSUIndex

COCO CNBAPIngressMDCR

COCO

COCO CNBAPOpState

COCO CNBAPPCR01Egr

COCO CNBAPPCR01Ing

COCO

COCO CNBAPServiceCategory

COCO CNBAPTPATMIfId

COCO CNBAPTPAdmState

COCO CNBAPVCI

COCO CNBAPVPI

COCO Change origin COCOChangeOrigin

COCO COCOId

COCO Calculate CDVT CalculateCDVT

COCO CreateATMTP

COCO DNBAPTP

COCO CControlPortID

COCO DNBAPATMIfId

COCO DNBAPCDVT01Egr

COCO DNBAPCDVT01Ing

COCO

ATM interface maximum VPI bitsATM interface physical TTP

C-NBAP signalling link configurationC-NBAP VCLtp CDVT egressC-NBAP VCLtp CDVT ingressC-NBAP Early Packet Discard

CNBAPEarlyPacketDiscard

C-NBAP Egress Minimum Desired Cell RateC-NBAP Egress UBR Share Weight Of Excessive Bandwidth

CNBAPEgressUBRShare

ICSU index for C-NBAP linkC-NBAP Ingress Minimum Desired Cell RateC-NBAP Ingress UBR Share Weight Of Excessive Bandwidth

CNBAPIngressUBRShare

Operational Status of C-NBAP linkC-NBAP VCLtp PCR egressC-NBAP VCLtp PCR ingressC-NBAP Partial Packet Discard

CNBAPPartialPacketDiscard

C-NBAP Service CategoryC-NBAP ATM interface identifierC-NBAP VCLtp effective administrative stateC-NBAP Virtual Channel IdentifierC-NBAP Virtual Path Identifier

Connection Configuration Identifier

Create ATM termination pointsD-NBAP signalling link configurationCommunication Control Port

Communication Control Port ID

D-NBAP ATM interface identifierD-NBAP VCLtp CDVT egressD-NBAP VCLtp CDVT ingressD-NBAP Early Packet Discard

DNBAPEarlyPacketDiscard

COCO DNBAPEgressMDCR

COCO

COCO DNBAPICSUIndex

COCO DNBAPIngressMDCR

COCO

COCO DNBAPOpState

COCO DNBAPPCR01Egr

COCO DNBAPPCR01Ing

COCO

COCO DNBAPServiceCategory

COCO DNBAPTPAdmState

COCO DNBAPVCI

COCO DNBAPVPI

COCO

COCO GenerateAAL2Num

COCO

COCO VCC Bundle parameters VCCBundleParams

COCO VCCBundleEBS

COCO VCC Bundle identifier VCCBundleId

COCO VCCBundlePCR

COCO VPLTP

COCO Virtual Path Identifier COCOVPI

COCO VPLTPATMIfId

COCO VPLTPAdmState

COCO VPLtp CDVT egress VPLTPCDVT01Egr

COCO VPLTPEgressMDCR

COCO VPLtp PCR egress VPLTPPCR01Egr

COCO VPLtp Service Category VPLTPServiceCategory

COCO VPLTPTrafficShaping

COCO WBTS Identification WBTSId

FMCG AMRDirReCell -

FMCG DLDPCHTxPwrClOffset

D-NBAP Egress Minimum Desired Cell RateD-NBAP Egress UBR Share Weight Of Excessive Bandwidth

DNBAPEgressUBRShare

ICSU index for D-NBAP linkD-NBAP Ingress Minimum Desired Cell RateD-NBAP Ingress UBR Share Weight Of Excessive Bandwidth

DNBAPIngressUBRShare

Operational Status of D-NBAP linkD-NBAP VCLtp PCR egressD-NBAP VCLtp PCR ingressDNBAP Partial Packet Discard

DNBAPPartialPacketDiscard

D-NBAP Service CategoryD-NBAP VCLtp effective administrative stateD-NBAP Virtual Channel IdentifierD-NBAP Virtual Path IdentifierDynamic NRT DCH Scheduling With Path Selection Switch

DynNRTDCHSchedPathSwitch

Generate AAL2 user plane link numbersInternal HSDPA Flow Control Method for BTS

InternalHSDPAFCMethodBTS

VCC Bundle Excess Bandwidth Share

VCC Bundle Peak Cell RateVirtual Path Link termination point

VPLtp ATM interface identifierVPLtp effective administrative state

VPLTP Egress Minimum Desired Cell Rate

VPLtp VP level traffic shaping

Usage of Directed Retry of AMR call Inter-system HandovDL DPCH Transmission Power Cancellation Offset

FMCG Change origin FMCGChangeOrigin

FMCG FMCG identifier FMCGId

FMCG GSMcauseCPICHEcNo

FMCG GSMcauseCPICHrscp

FMCG GSMcauseTxPwrDL

FMCG GSMcauseTxPwrUL

FMCG GSMcauseUplinkQuality

FMCG GsmDLTxPwrThrAMR

FMCG GsmDLTxPwrThrCS

FMCG GsmDLTxPwrThrNrtPS

FMCG GsmDLTxPwrThrRtPS

FMCG GsmMaxMeasPeriod

FMCG GsmMeasAveWindow

FMCG GsmMeasRepInterval Reporting interval

FMCG GsmMinHoInterval

FMCG GsmMinMeasInterval

FMCG GsmMinSLHOInterval

FMCG GsmNcellSearchPeriod

FMCG GsmUETxPwrFilterCoeff Filter coefficient

FMCG GsmUETxPwrThrAMR

FMCG GsmUETxPwrThrCS

FMCG GsmUETxPwrThrNrtPS

FMCG GsmUETxPwrThrRtPS

FMCG GsmUETxPwrTimeHyst Time-to-trigger

FMCG IMSI Based GSM HO IMSIbasedGsmHo

FMCG

FMCG ISHOClcauseCPICHrscp

FMCG ISHOClcauseTxPwrDL

FMCG ISHOClcauseTxPwrUL

FMCG MaxBSICIdentTime

FMCI Change origin FMCIChangeOrigin

FMCI FMCI identifier FMCIId

GSM HO caused by CPICH Ec/NoGSM HO caused by CPICH RSCPGSM HO caused by DL DPCH TX PowerGSM HO caused by UE TX PowerGSM HO caused by UL DCH QualityDL DPCH TX Power Threshold for AMRDL DPCH TX Power Threshold for CSDL DPCH TX Power Threshold for NRT PSDL DPCH TX Power Threshold for RT PSMaximum Measurement PeriodMeasurement Averaging WindowMeasurement Reporting IntervalMinimum Interval Between HOsMinimum Measurement IntervalMinimum interval between repetitive inter-RAT SLHOsGSM Neighbour Cell Search PeriodUE TX Power Filter CoefficientUE TX Power Threshold for AMRUE TX Power Threshold for CSUE TX Power Threshold for NRT PSUE TX Power Threshold for RT PSUE TX Power Time Hysteresis

ISHO Cancellation caused by CPICH Ec/No

ISHOClcauseCPICHEcNo

ISHO Cancellation caused by CPICH RSCPISHO Cancellation caused by DL DPCH TX PowerISHO Cancellation caused by UE TX PowerMaximum BSIC Identification Time

FMCI IFHOcauseCPICHEcNo

FMCI IFHOcauseCPICHrscp

FMCI IFHOcauseTxPwrDL

FMCI IFHOcauseTxPwrUL

FMCI IFHOcauseUplinkQuality

FMCI IMSI Based IFHO IMSIbasedIFHO

FMCI

FMCI InterFreqDLTxPwrThrCS

FMCI

FMCI

FMCI

FMCI

FMCI Reporting interval

FMCI InterFreqMinHoInterval

FMCI

FMCI

FMCI

FMCI Filter coefficient

FMCI

FMCI

FMCI

FMCI

FMCI Time-to-trigger

FMCI MBLBMobilityOffset

FMCI MBLBMobilityRABComb

FMCS W

FMCS Reporting interval

FMCS Addition Time AdditionTime Time to trigger

FMCS Addition Window AdditionWindow Reporting Range

FMCS DSRepBasedSHO

FMCS Drop Reporting Interval DropReportingInterval

FMCS Drop Time DropTime Time to trigger

IFHO caused by CPICH Ec/NoIFHO caused by CPICH RSCPIFHO caused by DL DPCH TX PowerIFHO caused by UE TX PowerIFHO caused by UL DCH Quality

DL DPCH TX Power Threshold for AMR

InterFreqDLTxPwrThrAMR

DL DPCH TX Power Threshold for CSDL DPCH TX Power Threshold for NRT PS

InterFreqDLTxPwrThrNrtPS

DL DPCH TX Power Threshold for RT PS

InterFreqDLTxPwrThrRtPS

Maximum Measurement Period

InterFreqMaxMeasPeriod

Measurement Averaging Window

InterFreqMeasAveWindow

Measurement Reporting Interval

InterFreqMeasRepInterval

Minimum Interval Between HOsMinimum Measurement Interval

InterFreqMinMeasInterval

Minimum interval between repetitive IF SLHOs

InterFreqMinSLHOInterval

Neighbour Cell Search Period

InterFreqNcellSearchPeriod

UE TX Power Filter Coefficient

InterFreqUETxPwrFilterCoeff

UE TX Power Threshold for AMR

InterFreqUETxPwrThrAMR

UE TX Power Threshold for CS

InterFreqUETxPwrThrCS

UE TX Power Threshold for NRT PS

InterFreqUETxPwrThrNrtPS

UE TX Power Threshold for RT PS

InterFreqUETxPwrThrRtPS

UE TX Power Time Hysteresis

InterFreqUETxPwrTimeHyst

MBLB due to Mobility EcNo OffsetMBLB due to Mobility RAB CombinationsActive Set Weighting Coefficient

ActiveSetWeightingCoefficient

Addition Reporting Interval

AdditionReportingInterval

Detected Set Reporting Based SHO

Periodical reporting info-1b / Reporting interval

FMCS Drop Window DropWindow Reporting Range

FMCS EDCHAddEcNoOffset

FMCS EDCHRemEcNoOffset

FMCS EcNoFilterCoefficient Filter Coefficient

FMCS Change origin FMCSChangeOrigin

FMCS FMCS identifier FMCSId

FMCS HHoEcNoCancel

FMCS HHoEcNoCancelTime Time to trigger

FMCS HHoEcNoThreshold

FMCS Time to trigger

FMCS HHoRscpCancel

FMCS HHoRscpCancelTime Time to trigger

FMCS Filter coefficient

FMCS HHoRscpThreshold

FMCS Time to trigger

FMCS IMSI Based SHO IMSIbasedSHO

FMCS MaxActiveSetSize

FMCS Reporting interval

FMCS Replacement Time ReplacementTime Time to trigger

FMCS Replacement Window ReplacementWindow Hysteresis

HOPG AdjgHCSpriority HCS_PRIO

HOPG AdjgHCSthreshold Qhcs

HOPG AdjgMinRxLevNCHO

HOPG AdjgPenaltyTime PENALTY_TIME

HOPG AdjgPenaltyTimeNCHO

HOPG AdjgPriorityCoverage

HOPG AdjgPrioritySLHO

HOPG AdjgQoffset1 Qoffset1

HOPG AdjgQrxlevMin QrxlevMin

HOPG AdjgRxLevMinHO

HOPG AdjgTempOffset1 Temporary_offset1

HOPG Change origin HOPGChangeOrigin

Allow E-DCH usage EcNo offsetCPICH EcNo offset E-DCH usage removalCPICH Ec/No Filter Coefficient

CPICH Ec/No HHO Cancellation

Threshold used frequency

CPICH Ec/No HHO Cancellation TimeCPICH Ec/No HHO Threshold


CPICH Ec/No HHO Time Hysteresis

HHoEcNoTimeHysteresis

CPICH RSCP HHO Cancellation


CPICH RSCP HHO Cancellation TimeCPICH RSCP HHO Filter Coefficient

HHoRscpFilterCoefficient

CPICH RSCP HHO Threshold


CPICH RSCP HHO Time Hysteresis

HHoRscpTimeHysteresis

Maximum Active Set Size

Replacement activation threshold

Replacement Reporting Interval

ReplacementReportingInterval

Cell Re-selection HCS PriorityCell Re-selection HCS ThresholdMinimum RX level for non-critical HOCell Re-selection Penalty TimePenalty time for GSM cell in non-critical HONcell Priority for Coverage HONeighbour cell priority for SLHOCell Re-selection Quality Offset 1Cell Re-selection Minimum RX LevelMinimum RX Level for Coverage HOCell Re-selection Temporary Offset 1

HOPG HOPG Identifier HOPGId

HOPI AdjiEcNoMargin

HOPI AdjiHCSpriority HCS_PRIO

HOPI AdjiHCSthreshold Qhcs

HOPI AdjiMinEcNo

HOPI AdjiMinEcNoNCHO

HOPI AdjiMinRSCP

HOPI AdjiMinRscpNCHO

HOPI AdjiPenaltyTime PENALTY_TIME

HOPI AdjiPenaltyTimeNCHO

HOPI AdjiPlossMargin

HOPI AdjiPriorityCoverage

HOPI AdjiPriorityDCellCAHO -

HOPI AdjiPriorityHSCAHO

HOPI AdjiPriorityMIMOCAHO -

HOPI AdjiPriorityQuality

HOPI AdjiPrioritySLHO

HOPI AdjiQoffset1 Qoffset1

HOPI AdjiQoffset2 Qoffset2

HOPI AdjiQqualMin Qqualmin

HOPI AdjiQrxlevMin Qrxlevmin

HOPI AdjiTempOffset1 Temporary_offset1

HOPI AdjiTempOffset2 Temporary_offset2

HOPI BlindHORSCPThr

HOPI Change origin HOPIChangeOrigin

HOPI HOPI Identifier HOPIId

HOPL AdjLAbsPrioCellReselec priority

HOPL AdjLQrxlevminEUTRA QrxlevminEUTRA

HOPL AdjLThreshigh Threshx, high

HOPL AdjLThreslow Threshx, low

HOPL Change origin HOPLChangeOrigin

HOPL HOPL Identifier HOPLId

CPICH Ec/No Margin for IFHOCell Re-selection HCS PriorityCell Re-selection HCS ThresholdMinimum CPICH Ec/No for IFHOMinimum CPICH Ec/No for non-critical IFHOMinimum CPICH RSCP for IFHOMinimum CPICH RSCP for non-critical IFHOCell Re-selection Penalty TimePenalty time for WCDMA cell in non-critical HOPathloss Margin for IFHONcell Priority for Coverage IFHONeighbour cell priority for DC HSDPA Capa Based HONeighbour Cell Priority for HSPA Capability Based HONeighbour cell priority for MIMO Capa Based HONcell Priority for Quality IFHONeighbour cell priority for service and load IFHOCell Re-selection Quality Offset 1Cell Re-selection Quality Offset 2Cell Re-selection Minimum QualityCell Re-selection Minimum RX LevelCell Re-selection Temporary Offset 1Cell Re-selection Temporary Offset 2Blind HO RSCP threshold

Cell Reselection Absolute PriorityCell Reselection Minimum RX levelCell Reselection Threshold highCell Reselection Threshold low

HOPS AdjsHCSpriority HCS_PRIO

HOPS AdjsHCSthreshold Qhcs

HOPS AdjsPenaltyTime PENALTY_TIME

HOPS AdjsQoffset1 Qoffset1

HOPS AdjsQoffset2 Qoffset2

HOPS AdjsQqualMin Qqualmin

HOPS AdjsQrxlevMin Qrxlevmin

HOPS AdjsTempOffset1 Temporary_offset1

HOPS AdjsTempOffset2 Temporary_offset2

HOPS EcNoAveragingWindow

HOPS EnableInterRNCsho

HOPS EnableRRCRelease

HOPS

HOPS HHOMarginPeakEcNo

HOPS Change origin HOPSChangeOrigin

HOPS HOPS Identifier HOPSId

HOPS HSDPAAvailabilityIur

HOPS HSUPAAvailabilityIur

HOPS

HOPS

IPNB C-NBAP CNBAP

IPNB CNBAPConnOpState

IPNB CNBAPICSUIndex

IPNB

IPNB D-NBAP DNBAP

IPNB CControlPortID

IPNB DNBAPConnOpState

IPNB DNBAPICSUIndex

IPNB

IPNB IPBasedRouteId

IPNB IPNB Change origin IPNBChangeOrigin

IPNB IPNB object identifier IPNBId

Cell Re-selection HCS PriorityCell Re-selection HCS ThresholdCell Re-selection Penalty TimeCell Re-selection Quality Offset 1Cell Re-selection Quality Offset 2Cell Re-selection Minimum QualityCell Re-selection Minimum RX LevelCell Re-selection Temporary Offset 1Cell Re-selection Temporary Offset 2CPICH Ec/No Averaging WindowEnable Inter-RNC Soft HandoverEnable RRC Connection ReleaseHHO Margin for Average Ec/No

HHOMarginAverageEcNo

HHO Margin for Peak Ec/No

HSDPA availability of the neighbouring DRNC cellHSUPA availability of the neighbouring DRNC cellRelease Margin for Average Ec/No

ReleaseMarginAverageEcNo

Release Margin for Peak Ec/No

ReleaseMarginPeakEcNo

C-NBAP connection operational stateICSU index for C-NBAP linkSCTP Port Number for C-NBAP

SCTPPortNumberCNBAP

Communication Control Port identifier

Communication Control Port ID

D-NBAP connection operational stateICSU index for D-NBAP linkSCTP Port Number for D-NBAP

SCTPPortNumberDNBAP

IP Based Route Identification

IPNB MinSCTPPortIub

IPNB NBAP DSCP NBAPDSCP

IPNB NodeBIPAddress

IPNB WBTS identification WBTSId

IPQM BackgroundTCToDSCP -

IPQM -

IPQM Change origin IPQMChangeOrigin

IPQM IPQMId

IPQM -

IPQM -

IPQM -

IPQM StreamingTCToDSCP -

IUCS AAL2PTSigForIuCS

IUCS CNDRXLength

IUCS CNDomainVersion

IUCS Attach-detach allowed CSAttachDetachAllowed

IUCS NRI for CS Core routing CSCNNRI

IUCS NRIMaxForCSCN

IUCS NRIMinForCSCN

IUCS T3212 CS_T3212 T3212

IUCS Default Core Network DefaultCN Default CN

IUCS GlobalCNId GlobalCNId Global CN-ID

IUCS Core Network Identity CNId CN-ID

IUCS Mobile Country Code MCC

IUCS Mobile Network Code MNC

IUCS MNCLength

IUCS Change origin IUCSChangeOrigin

IUCS IuCS Interface Identifier IUCSId

IUCS IuBarringDelayTimerCS -

IUCS -

IUCS IuBarringRecoveryTimer

IUCS State of Iu interface IuState

Minimum SCTP port number

Control Plane Destination Address Iub

Background TC to DSCP mappingConversational TC to DSCP mapping

ConversationalTCToDSCP

IP Qos Management IdentifierInteractive THP1 TC to DSCP mapping

InteractiveTHP1TCToDSCP

Interactive THP2 TC to DSCP mapping


Interactive THP3 TC to DSCP mapping


Streaming TC to DSCP mappingAAL2PT signalling for IuCSCN domain specific DRX cycle length

CN domain specific DRX cycle length coefficient

Release version of Core Network

ATT; Attach-detach allowed

Maximum value of NRI range for CS Core routingMinimum value of NRI range for CS Core routing



Iu Barring Delay Timer for CSIu Barring Recovery Group for CS

IuBarringRecoveryGroupCS

Iu service barring recovery timer

IUCS Iu interface failure Iufailure

IUCS Minimum UDP Port MinUDPPortCS

IUCS Network indicator NetworkInd

IUCS RelocationSupport

IUCS RTCP activation RtcpActivation

IUCS Signalling point code SignPointCode

IUCS TRafC TRafC TRafC

IUCS TRatC TRatC TRatC

IUCS TigOR TigOR TigOR

IUCS TinTR TinTR TinTR

IUCSIP DestIPAddressCS

IUCSIP IPBasedRouteIdCS

IUCSIP IPNetmaskCS

IUCSIP IPQMIdCS

IUCSIP IUCSIP Change Origin IUCSIPChangeOrigin

IUCSIP IUCSIP Identifier IUCSIPId

IUO ICR Operator Identifier ICROperatorId

IUO ICR Operator Name ICROperatorName

IUO ICR PLMN Identifier ICRPLMNid

IUO Mobile Country Code MCC

IUO Mobile Network Code MNC

IUO MNCLength

IUO IUO Change Origin IUOChangeOrigin

IUO IUO Identification IUOId

IUO NRILengthForCSCN

IUO NRILengthForPSCN

IUO NullNRIForCSPool null-NRI

IUO NullNRIForPSPool null-NRI

IUO Operator Weight OperatorWeight

IUO PLMN identity PLMNid PLMN identity

IUO Mobile Country Code MCC

IUO Mobile Network Code MNC

Serving RNC Relocation Support

IP address for the IUCS destination subnetIP Based Route Identifier for IUCSIP netmask for the IUCS destination subnetIPQM object id for IuItemCS



NRI length for CS Core NetworksNRI length for PS Core NetworksNull NRI value for CS PoolNull NRI value for PS Pool


IUO MNCLength

IUO SharedAreaPLMNid

IUO SharedAreaMCC MCC

IUO SharedAreaMNC MNC

IUO SharedAreaMNClength

IUPS CNDRXLength

IUPS CNDomainVersion

IUPS CellFACHRelocSupport

IUPS Default Core Network DefaultCN Default CN

IUPS GlobalCNId GlobalCNId Global CN-ID

IUPS Core Network Identity CNId CN-ID

IUPS Mobile Country Code MCC

IUPS Mobile Network Code MNC

IUPS MNCLength

IUPS Change origin IUPSChangeOrigin

IUPS IuPS Interface Identifier IUPSId

IUPS IuBarringDelayTimerPS -

IUPS -

IUPS IuBarringRecoveryTimer

IUPS State of Iu interface IuState

IUPS Iu interface failure Iufailure

IUPS Network indicator NetworkInd

IUPS NRI for PS Core routing PSCNNRI

IUPS NRIMaxForPSCN

IUPS NRIMinForPSCN

IUPS PS_NMO

IUPS RelocationSupport

IUPS Signalling point code SignPointCode

IUPS T DATAfwd TDataFwd TDATAfwd

IUPS TRafC TRafC TRafC

IUPS TRatC TRatC TRatC

IUPS TigOR TigOR TigOR

Mobile Network Code LengthShared area PLMN identityShared area Mobile Country CodeShared area Mobile Network CodeShared area Mobile Network Code LengthCN domain specific DRX cycle length

CN domain specific DRX cycle length coefficient

Release version of Core NetworkCell_FACH state Serving RNC Relocation Support



Iu Barring Delay Timer for PSIu Barring Recovery Group for PS

IuBarringRecoveryGroupPS

Iu service barring recovery timer

Maximum value of NRI range for PS Core routingMinimum value of NRI range for PS Core routingNetwork Mode of Operation

Network Mode of Operation; NMO

Serving RNC Relocation Support

IUPS TinTR TinTR TinTR

IUPSIP DestIPAddressPS

IUPSIP IPBasedRouteIdPS

IUPSIP IPNetmaskPS

IUPSIP IPQMIdPS

IUPSIP IUPSIP Change Origin IUPSIPChangeOrigin

IUPSIP IUPSIP Identifier IUPSIPId

IUR AAL2PTSigForIur

IUR

IUR DSCPHighIur

IUR Low priority DSCP for Iur DSCPLowIur

IUR DSCPMedDCHIur

IUR DelayThresholdMaxIur

IUR DelayThresholdMidIur

IUR DelayThresholdMinIur

IUR HSDPACCEnabledIur

IUR HSDPAULCToDSCPIur

IUR HSPA over Iur HSPAOverIur

IUR HSUPADLCToDSCPIur

IUR IBTS Sharing IBTSSharing

IUR IP based route identifier IPBasedRouteIdIur

IUR Change origin IURChangeOrigin

IUR Iur Interface Identifier IURId

IUR InterfaceMode

IUR IurUPSupport

IUR

IUR MinUDPPortIur

IUR NRncId RNC Identifier; RNC-Id

IUR NRncNetworkInd

IUR NRncRelocationSupport

IUR NRncSignPointCode

IUR NRncVersion

IP address for the IUPS destination subnetIP Based Route Identifier for IUPSIP netmask for the IUPS destination subnetIPQM object id for IuItemPS

AAL2PT signalling for IurCell_FACH state Serving RNC Relocation Support

CellFACHnRncRelocSupport

DSCP high priority for Iur

DSCP medium priority on R99 DCH for IurMaximum Threshold for HSUPA congestion handling delayMiddle Threshold value for HSUPA congestion delayMinimum Threshold value for HSUPA congestion - delayHSDPA Congestion Control activation IurHSDPA UL FP Control traffic to DSCP mapping Iur

HSUPA DL FP Control traffic to DSCP mapping Iur

Configure the IUR in a special modeUser Plane support of Iur connectionMaximum NRT HS-DSCH MAC-d flow bit rate over Iur

MaxIurNRTHSDSCHBitRate

Minimum UDP port valueNeighbour RNC identifierNetwork indicator of neighbour RNCServing RNC Relocation Support of neighbour RNCSignalling point code of neighbour RNCRelease version of Neighbouring RNC

IUR NeighbouringPLMNid

IUR Mobile Country Code MCC

IUR Mobile Network Code MNC

IUR MNCLength

IUR

IUR Overbooking Switch Iur OverbookingSwitchIur

IUR ProbabilityFactorMaxIur

IUR

IUR

IUR ToAWEOffsetRTDCHIP

IUR

IUR ToAWSOffsetRTDCHIP

IUR

PFL -

PFL BlindHORSCPThrAbove

PFL BlindHORSCPThrBelow

PFL LaySelLowLoadPref

PFL LaySelWeightBand

PFL LaySelWeightLoad

PFL LaySelWeightPrefLayer

PFL LaySelWeightRSCP

PFL PFL64QAMAMR

PFL PrefLayer64QAMAMR

PFL PFL64QAMAMRNRT

PFL

PFL PFL64QAMNRT

PFL PrefLayer64QAMNRT

PFL PFL64QAMStr

PFL PrefLayer64QAMStr

PFL PFLCSHSAMR

PFL PrefLayerCSHSAMR

PFL PFLCSHSAMRNRT

Neighbouring PLMN identity


Mobile Network Code LengthType of the Neighbouring RNW Element

NeighbouringRNWElement

ProbabilityFactor for Congestion Indication sendingRNSAP Congestion And Preemption

RNSAPCongAndPreemption

ToAWE Offset for NRT DCH connections over IP

ToAWEOffsetNRTDCHIP

ToAWE Offset for RT DCH connections over IPToAWS Offset for NRT DCH connections over IP

ToAWSOffsetNRTDCHIP

ToAWS Offset for RT DCH connections over IPMaximum HS-DSCH FP size for ATM Iur

maxHSDPAFPSizeForATMIur

AMR to Non Preferred Layer

AMRToNonPreferredLayer

Blind HO RSCP threshold aboveBlind HO RSCP threshold belowLayer Selection Low Load PreferredLayer Selection Weight of BandLayer Selection Weight of LoadLayer Selection Weight of Preferred LayerLayer Selection Weight of RSCPPreferred Frequency Layer for 64QAM AMRPreferred Layer for 64QAM AMRPreferred Frequency Layer for 64QAM AMR and NRTPreferred Layer for 64QAM AMR and NRT

PrefLayer64QAMAMRNRT

Preferred Frequency Layer for 64QAM NRTPreferred Layer for 64QAM NRTPreferred Frequency Layer for 64QAM StreamingPreferred Layer for 64QAM StreamingPreferred Frequency Layer for CS voice HSPA AMRPreferred Layer for CS voice HSPA AMRPreferred Frequency Layer for CS voice HSPA AMR and NRT

PFL

PFL PFLCSHSNRT

PFL PrefLayerCSHSNRT

PFL PFLCSHSStr

PFL PrefLayerCSHSStr

PFL Change Origin PFLChangeOrigin

PFL PFLDCHSDAMR

PFL PrefLayerDCHSDAMR

PFL PFLDCHSDAMRNRT

PFL

PFL PFLDCHSDNRT

PFL PrefLayerDCHSDNRT

PFL PFLDCHSDStr

PFL PrefLayerDCHSDStr

PFL PFLDCMIAMR

PFL PrefLayerDCMIAMR

PFL PFLDCMIAMRNRT

PFL

PFL PFLDCMINRT

PFL PrefLayerDCMINRT

PFL PFLDCMIStr

PFL PrefLayerDCMIStr

PFL PFLFDPCHAMR

PFL PrefLayerFDPCHAMR

PFL PFLFDPCHAMRNRT

PFL

PFL PFLFDPCHNRT

PFL PrefLayerFDPCHNRT

PFL PFLFDPCHStr

PFL PrefLayerFDPCHStr

PFL PFLFastMovUECS

PFL PrefLayerFastMovUECS

Preferred Layer for CS voice HSPA AMR and NRT

PrefLayerCSHSAMRNRT

Preferred Frequency Layer for CS voice HSPA NRTPreferred Layer for CS voice HSPA NRTPreferred Frequency Layer for CS voice HSPA StreamingPreferred Layer for CS voice HSPA Streaming

Preferred Frequency Layer for DC-HSDPA AMRPreferred Layer for DC-HSDPA AMRPreferred Frequency Layer for DC-HSDPA AMR and NRTPreferred Layer for DC-HSDPA AMR and NRT

PrefLayerDCHSDAMRNRT

Preferred Frequency Layer for DC-HSDPA NRTPreferred Layer for DC-HSDPA NRTPreferred Frequency Layer for DC-HSDPA StreamingPreferred Layer for DC-HSDPA StreamingPreferred Frequency Layer for DC and MIMO AMRPreferred Layer for DC and MIMO AMRPreferred Frequency Layer for DC and MIMO AMR and NRTPreferred Layer for DC and MIMO AMR and NRT

PrefLayerDCMIAMRNRT

Preferred Frequency Layer for DC and MIMO NRTPreferred Layer for DC and MIMO NRTPreferred Frequency Layer for DC and MIMO StreamingPreferred Layer for DC and MIMO StreamingPreferred Frequency Layer for FDPCH AMRPreferred Layer for F-DPCH AMRPreferred Frequency Layer for FDPCH AMR and NRTPreferred Layer for F-DPCH AMR and NRT

PrefLayerFDPCHAMRNRT

Preferred Frequency Layer for FDPCH NRTPreferred Layer for F-DPCH NRTPreferred Frequency Layer for FDPCH StreamingPreferred Layer for F-DPCH StreamingPreferred Frequency Layer for fast moving UE CSPreferred Layer for fast moving UE CS

PFL PFLFastMovUEPS

PFL PrefLayerFastMovUEPS

PFL PFLHSDPAAMR

PFL PrefLayerHSDPAAMR

PFL PFLHSDPAAMRNRT

PFL

PFL PFLHSDPANRT

PFL PrefLayerHSDPANRT

PFL PFLHSDPAStr

PFL PrefLayerHSDPAStr

PFL PFLHSPAAMR

PFL PrefLayerHSPAAMR

PFL PFLHSPAAMRNRT

PFL

PFL PFLHSPANRT

PFL PrefLayerHSPANRT

PFL PFLHSPAStr

PFL PrefLayerHSPAStr

PFL PFL Identifier PFLIdentifier

PFL PFLMIMOAMR

PFL PrefLayerMIMOAMR

PFL PFLMIMOAMRNRT

PFL

PFL PFLMIMONRT

PFL PrefLayerMIMONRT

PFL PFLMIMOStr

PFL PrefLayerMIMOStr

PFL PFLR99AMR

PFL PrefLayerR99AMR

PFL PFLR99AMRNRT

PFL PrefLayerR99AMRNRT

PFL PFLR99NRT

Preferred Frequency Layer for fast moving UE PSPreferred Layer for fast moving UE PSPreferred Frequency Layer for HSDPA AMRPreferred Layer for HSDPA AMRPreferred Frequency Layer for HSDPA AMR and NRTPreferred Layer for HSDPA AMR and NRT

PrefLayerHSDPAAMRNRT

Preferred Frequency Layer for HSDPA NRTPreferred Layer for HSDPA NRTPreferred Frequency Layer for HSDPA StreamingPreferred Layer for HSDPA StreamingPreferred Frequency Layer for HSPA AMRPreferred Layer for HSPA AMRPreferred Frequency Layer for HSPA AMR and NRTPreferred Layer for HSPA AMR and NRT

PrefLayerHSPAAMRNRT

Preferred Frequency Layer for HSPA NRTPreferred Layer for HSPA NRTPreferred Frequency Layer for HSPA StreamingPreferred Layer for HSPA Streaming

Preferred Frequency Layer for MIMO AMRPreferred Layer for MIMO AMRPreferred Frequency Layer for MIMO AMR and NRTPreferred Layer for MIMO AMR and NRT

PrefLayerMIMOAMRNRT

Preferred Frequency Layer for MIMO NRTPreferred Layer for MIMO NRTPreferred Frequency Layer for MIMO StreamingPreferred Layer for MIMO StreamingPreferred Frequency Layer for R99 AMRPreferred Layer for R99 AMRPreferred Frequency Layer for R99 AMR and NRTPreferred Layer for R99 AMR and NRTPreferred Frequency Layer for R99 NRT

PFL PrefLayerR99NRT

PFL PFLR99Str

PFL PrefLayerR99Str

PREBTS AutoConnHWID

PREBTS Auto Connection site ID AutoConnSiteID

PREBTS BTS Identifier BTSID

PREBTS PREBTS Identifier PREBTSID

PREBTS Technology Information TechnologyInformation

PREBTS Version Version

RNAC AMRLoadTxPower

RNAC AMRNumofReconf AMRNumofReconf

RNAC AMRwinSizeSCload AMRwinSizeSCload

RNAC Adjustment period time AdjustmentPeriod Adjustment Period

RNAC Adjustment ratio AdjustmentRatio Adjustment Ratio

RNAC BitRateSetPSNRT

RNAC DCH slope of the curve DCHSlopeOfTheCurve -

RNAC

RNAC DL Load Source DLLoadSource

RNAC DLmaxBitRatePerSF

RNAC DLmaxBitRateSF128





RNAC Downlink puncturing limit DLpuncturingLimit Puncture Limit

RNAC

RNAC EDCH slope of the curve EDCHSlopeOfTheCurve -

RNAC ExpectReorderingPDCP

RNAC F Max Period for PDCP FmaxPeriodPDCP F_MAX_PERIOD

RNAC F Max Time for PDCP FmaxTimePDCP F_MAX_TIME

RNAC FreePtxSafetyMarginStr

RNAC Gain factor BetaC

Preferred Layer for R99 NRTPreferred Frequency Layer for R99 StreamingPreferred Layer for R99 StreamingAuto Connection Hardware ID

Indicator for downlink radio power load

Bit rate set for PS NRT DCHs

DL inner loop PC step size for CPC users

DLInLoopPCStepSizeCPC

FDD TPC Downlink step size

Maximum DL bit rate per spreading factorMaximum DL bit rate with spreading factor 128Maximum DL bit rate with spreading factor 16Maximum DL bit rate with spreading factor 256Maximum DL bit rate with spreading factor 32Maximum DL bit rate with spreading factor 64

Power-adjusting step size in WCDMA BTS for DL closed loop PC

DownlinkInnerLoopPCStepSize

FDD TPC Downlink step size

Expect Reordering for PDCP

EXPECT_REORDERING

Safety margin for free transmitted power for streamingGain factor for control part of PRACH message

GainFactorControlPartPRACHmessage

RNAC PrachBetaC120 Gain Factor BetaC

RNAC PrachBetaC15 Gain factor BetaC



RNAC Gain factor BetaD

RNAC PrachBetaD120 Gain factor BetaD

RNAC PrachBetaD15 Gain factor BetaD

RNAC PrachBetaD30 Gain Factor BetaD

RNAC PrachBetaD60 Gain Factor BetaD

RNAC HSFACHDiscardTimer Discard Timer

RNAC HSFACHResetTimer

RNAC Support for RFC2507

RNAC ICRHostOperatorId

RNAC

RNAC MaxAdjustmentStep Max Adjustment Step

RNAC Maximum freezing time MaxFreezingTime -

RNAC Max Header for PDCP MaxHeaderPDCP MAX_HEADER

RNAC

RNAC MinPrefChange

RNAC NonTCPspacePDCP NON_TCP_SPACE

RNAC PCPreamble PC preamble

RNAC PCrangeDL

RNAC PeriodULRCAMR

RNAC PrefSubtract

RNAC

RNAC Change origin RNACChangeOrigin

RNAC RNAC Identifier RNACId

RNAC SRB delay SRBDelay SRB delay

RNAC

RNAC StepSizeForDCHBLER -

RNAC StepSizeForEDCHBLER -

RNAC TCP Space for PDCP TCPspacePDCP TCP_SPACE

Gain factor for control part of PRACH message with 120 kspsGain factor for control part of PRACH message with 15 kspsGain factor for control part of PRACH message with 30 kspsGain factor for control part of PRACH message with 60 kspsGain factor for data part of PRACH message

GainFactorDataPartPRACHmessage

Gain factor for data part of PRACH message with 120 kspsGain factor for data part of PRACH message with 15 kspsGain factor for data part of PRACH message with 30 kspsGain factor for data part of PRACH message with 60 kspsDiscard Timer for BCCH, CCCH and DCCH data on HS-FACHMAC-ehs Reset Timer for xCCH data on HS-FACH

MAC-ehs Reset Timer, Treset

Header compression algorithm of PDCP

HeaderCompressionMethod

ICR Host Operator IdentifierUsage of Load based AMR codec mode selection

LoadBasedAMRCodecMode

Maximum adjustment step

Maximum number of re-attempts to hunt resources

MaxNumberOfReAttemptsCong

Trigger for sending the updated reference power to BTSsNon-TCP Space for PDCPUplink DPCCH power control preambleRadio link downlink power control rangePeriod for CS AMR RRC TFC control requestsReference power subtraction parameterAbsolute limit in uplink noise autotuning

PrxNoiseMaxTuneAbsolute

Signalling link inactivity timer

SignallingLinkInactivityTimer

Step Size for DCH BLER calculationStep Size for EDCH BLER calculation

RNAC

RNAC TFDCHZeroBitRate

RNAC ULmaxBitRatePerSF

RNAC ULmaxBitRateSF128






RNAC Uplink puncturing limit ULpuncturingLimit Puncture Limit

RNAC UlScrCodeMin

RNAC related to "ITP"

RNAC related to 'RPP'

RNAC WaitTimeRRC Wait Time

RNAC Wait time

RNAC Wait time

RNAC Wait time

RNAC Wait time

RNAC Wait time

RNAC WaitTimeRRCinteractive Wait time

RNAC Wait time

RNAC WaitTimeRRCother Wait time

RNAC Wait time

RNAC WaitTimeRRCstreaming Wait time

RNAC Wait time

RNAC WaitTimeRRCunknown Wait time

RNC Common MCC CommonMCC MCC

RNC Common MNC CommonMNC

RNC Common MNC Length CommonMNCLength

RNC ConnectionRetryCounter

RNC DLBLERConfInterval

RNC

Transfer Delay multiplier for HSDPA streaming

TDMultForHSDPAStreaming

Zero size transport block to L1 CRC calculationMaximum UL bit rate per spreading factorMaximum UL bit rate with spreading factor 128Maximum UL bit rate with spreading factor 16Maximum UL bit rate with spreading factor 256Maximum UL bit rate with spreading factor 32Maximum UL bit rate with spreading factor 64Maximum UL bit rate with spreading factor 8

Uplink scrambling code minimum valueInitial transmit power in uplink compressed mode

UpLinkInitialTransmitPowerMode

Recovery Period Power in UL Compressed Mode

UpLinkRecoveryPeriodPowerMode

Wait time in RRC connection request rejectionRRC wait time for background causes

WaitTimeRRCbackground

RRC wait time for conversational causes

WaitTimeRRCconversational

RRC wait time for emergency causes

WaitTimeRRCemergency

RRC wait time for high priority signalling causes

WaitTimeRRChighPrioritySignalling

RRC wait time for inter-RAT re-selection causes

WaitTimeRRCinterRATreselection

RRC wait time for interactive causesRRC wait time for low priority signalling causes

WaitTimeRRClowPrioritySignalling

RRC wait time for other causesRRC wait time for registration causes

WaitTimeRRCregistration

RRC wait time for streaming causesRRC wait time for subscribed causes

WaitTimeRRCsubscribed

RRC wait time for unknown causes

Mobile Network Code, MNC

OAM Connection Establishment Retry CounterDownlink measured BLER confidence intervalEmergency Call Redirect Timer

EmergencyCallRedirectTimer

RNC

RNC

RNC LCS functionality LCSfunctionality

RNC MSActivitySupervision

RNC N302 N302 N302

RNC N304 N304 N304

RNC N308 N308 N308

RNC OMSBackupIpAddress

RNC OMS IP Address OMSIpAddress

RNC PWSMDuration

RNC

RNC PageRep1stInterv

RNC PageRep2ndInterv

RNC RANAP initiation timer RANAPprocInitWait

RNC Change origin RNCChangeOrigin

RNC RNC IP-address RNCIPAddress

RNC RNC name RNCName

RNC PS domain RT service RTservicesForPS

RNC Restriction Interval RestrictionInterval

RNC RNC Identifier RncId RNC Identifier; RNC-Id

RNC RNC Options RncOptions

RNC Priority for SIB11 SIB11_priority




RNC Priority for SIB19 SIB19Priority







Extended Cell_FACH inactivity supervision timer

ExtendedULDLactivationTmr

LCS Support for Anchoring

LCSSupportForAnchoring

Time supervision of user inactivity (for NRT RBs)

OMS Backup IP Address

Duration of low traffic for cell shutdownTime limit for traffic to activate a shutdown cell

PWSMExceededTrafficDur

Repetition interval of the first repeated connected mode paging procedureRepetition interval of the second repeated connected mode paging procedure


RNC SecOMSIpAddress

RNC Serving OMS ServingOMS

RNC

RNC

RNC T302 T302 T302

RNC T304 T304 T304

RNC T305 T305 T305

RNC T307 T307 T307

RNC T308 T308 T308

RNC T309 T309 T309

RNC T314 T314 T314

RNC T316 T316 T316

RNC T317 T317 T317

RNC

RNC

RNC

RNC ToAWE_RT_DCH_tti10



RNC ToAWE_Speech

RNC

RNC

RNC

RNC ToAWS_RT_DCH_tti10



RNC ToAWS_Speech

RNC TraceLCSHorizAccur

RNC Trace LCS Priority TraceLCSPriority

RNC TraceLCSVertAccur

RNC Trace LCS Wait Period TraceLCSWaitPeriod

Secondary OMS IP address

Serving OMS Admin Setting

ServingOMSAdminSetting

Serving OMS Switchover Request

ServingOMSSwoRequest

Time of Arrival Window Endpoint for NRT DCH (TTI 10)

ToAWE_NRT_DCH_tti10

Time of Arrival Window Endpoint; ToAWE


ToAWE_NRT_DCH_tti20



ToAWE_NRT_DCH_tti40


Time of Arrival Window Endpoint for RT DCH (TTI 10)






Time of Arrival Window Endpoint for speech services


Time of Arrival Window Startpoint for NRT DCH (TTI 10)

ToAWS_NRT_DCH_tti10

Time of Arrival Window Startpoint; ToAWS


ToAWS_NRT_DCH_tti20



ToAWS_NRT_DCH_tti40


Time of Arrival Window Startpoint for RT DCH (TTI 10)






Time of Arrival Window Startpoint for speech services


Trace LCS Horizontal Accuracy

Trace LCS Vertical Accuracy

RNC ULBLERConfInterval

RNC UL/DL activation timer UL_DL_activation_timer

RNC UL_DLcapacityReqWait

RNFC AMRWithEDCH

RNFC AMRWithHSDSCH

RNFC

RNFC CCCHforCUCallowed

RNFC CMmasterSwitch

RNFC

RNFC

RNFC -

RNFC DCHBitRateBalancing

RNFC DCHScheOverIur

RNFC DLOptimisationUsage

RNFC

RNFC E-UTRA detection EUTRAdetection E-UTRA detection

RNFC

RNFC Emergency Call Redirect EmergencyCallRedirect

RNFC Flexible RLC Enabled FRLCEnabled

RNFC FastDormancyEnabled

RNFC FlexUpgrUsage

RNFC HLSModeSelection

RNFC

RNFC HSDPA48UsersEnabled

RNFC

RNFC HSDPAMobility

RNFC HSPAInterRNCMobility

RNFC HSPAOverIurExt

RNFC ISHOCancellation

RNFC ISHO In Iur Mobility ISHOInIurMobility

RNFC

RNFC

Uplink measured BLER confidence interval

Waiting time for UL/DL capacity requestUsage of AMR service with E-DCHUsage of AMR service with HS-DSCHAutomatic DL Plan update enabled

AutomDLPlanUpdEnabled

Usage of CCCH for Cell/URA Update Confirm allowedCompressed mode master switchDirect State Transition From Cell_PCH to Cell_DCH

CUCforPCHtoDCHallowed

Cause value usage in NAS signaling connection release

CVUserInactInSignConnRel

Capacity Increase for Smartphones Enabled

CapaSmartphoneEnabled

DCH bit rate balancing on/off switchDCH Scheduling Over IurDynamic link optimisation usageDynamic usage of UL NRT DCH HSDPA return Channel

DynUsageHSDPAReturnChannel

Emergency Call lSHO Support

EmergencyCallISHOSupport

Fast Dormancy activation / de-activation parameterUsage of the Flexible Upgrade of the NRT DCH data rateHigher Layer Scheduling mode selectionHSDPA 16 kbps UL DCH return channel on/off switch

HSDPA16KBPSReturnChannel

HSDPA 48 users enabledHSDPA Dynamic Resource Allocation

HSDPADynamicResourceAllocation

Serving HS-DSCH cell change and SHO on/off switchHSPA Inter-RNC MobilityHSPA Over Iur ExtensionInter-System Handover Cancellation

Intelligent Emergency Call ISHO Support

IntelligentEmergencyCallISHOSupport

Time supervision for releasing Iu-PS connection

IuPSrelWait3G2GMultiServ

RNFC MIBPLMNIdIncluded MIB PLMN Identity

RNFC MOCNenabled

RNFC PBSpolicy

RNFC PSOpThroUsage

RNFC PWSMDriftAllowed

RNFC PostVerifPeriodDLSynch Post-verification period

RNFC Power Balancing on/off PowerBalancing

RNFC RABDRAEnabled

RNFC Change origin RNFCChangeOrigin -

RNFC RNFC Identifier RNFCId -

RNFC -

RNFC SLHOCmAllowedNRT

RNFC

RNFC WPSCallRestriction

RNFC WireLessPriorityService

RNHSPA ARP based weight ARPWeight

RNHSPA Weight for ARP1 WeightForARP1



RNHSPA ATOSRBsOnHSPA

RNHSPA CPC NRT 10 ms TTI CPCNRT10msTTI

RNHSPA N10msCPCOptObjective

RNHSPA N10msCQIDTXTimer CQI DTX Timer

RNHSPA

RNHSPA

RNHSPA

RNHSPA N10msMACDTXCycle MAC DTX Cycle

RNHSPA N10msMACInacThr

RNHSPA N10msUEDPCCHburst1 UE DPCCH burst1


RNHSPA N10msUEDRXCycle UE DRX Cycle

RNHSPA N10msUEDTXCycle1 UE DTX Cycle 1

MIB PLMN Identity IncludedMulti-Operator Core Network enabledPriority based scheduling policyThroughput based optimisation of the PS algorithm usageCell shutdown allowed with drifting UEPost-verification period in downlink synchronization

Usage of the direct resource allocation for PS NRT HSPA

RRC setup on CCH enabled for R99 UE

RRCSetupCCHEnabledR99

CM allowed for NRT connection in SLHOActivity supervision for NAS signaling connection

SignConnActivitySupervision

Restricting overloaded WPS callsUsage of the Wireless Priority Service

Offset for activation time of SRBs on HSPA

CPC Optimization objective NRT 10ms TTICQI DTX Timer NRT 10ms TTICQI Feedback Cycle for CPC NRT 10ms TTI

N10msCQIFeedbackCPC

Inactivity Threshold for UE DRX Cycle NRT 10ms TTI

N10msInacThrUEDRXCycle

Inactivity Threshold for UE DRX Cycle

Inactivity Threshold for UE DTX Cycle 2 NRT 10ms TTI

N10msInacThrUEDTXCycl2

Inactivity Threshold for UE DTX Cycle 2

MAC DTX Cycle NRT 10ms TTIMAC Inactivity Threshold NRT 10ms TTI

MAC Inactivity Threshold

UE DPCCH burst1 NRT 10ms TTIUE DPCCH burst2 NRT 10ms TTIUE DRX Cycle NRT 10ms TTIUE DTX Cycle 1 NRT 10ms TTI


RNHSPA UE DTX Long Preamble

RNHSPA CPC NRT 2 ms TTI CPCNRT2msTTI

RNHSPA N2msCPCOptObjective

RNHSPA N2msCQIDTXTimer CQI DTX Timer

RNHSPA N2msCQIFeedbackCPC

RNHSPA

RNHSPA

RNHSPA N2msMACDTXCycle MAC DTX Cycle

RNHSPA N2msMACInacThr



RNHSPA N2msUEDRXCycle UE DRX Cycle




RNHSPA CPCStreaming10msTTI

RNHSPA S10msCPCOptObjective

RNHSPA S10msCQIDTXTimer CQI DTX Timer

RNHSPA

RNHSPA

RNHSPA

RNHSPA S10msMACDTXCycle MAC DTX Cycle

RNHSPA S10msMACInacThr

RNHSPA S10msUEDPCCHburst1 UE DPCCH burst1


RNHSPA S10msUEDRXCycle UE DRX Cycle

RNHSPA S10msUEDTXCycle1 UE DTX Cycle 1



RNHSPA CPCStreaming2msTTI

RNHSPA S2msCPCOptObjective

UE DTX Cycle 2 NRT 10ms TTIUE DTX Long Preamble N10ms

N10msUEDTXLongPreamble

CPC Optimization objective NRT 2ms TTICQI DTX Timer NRT 2ms TTICQI Feedback Cycle for CPC NRT 2ms TTIInactivity Threshold for UE DRX Cycle NRT 2ms TTI

N2msInacThrUEDRXCycle


Inactivity Threshold for UE DTX Cycle 2 NRT 2ms TTI

N2msInacThrUEDTXCycl2


MAC DTX Cycle NRT 2ms TTIMAC Inactivity Threshold NRT 2ms TTI


UE DPCCH burst1 NRT 2ms TTIUE DPCCH burst2 NRT 2ms TTIUE DRX Cycle NRT 2ms TTIUE DTX Cycle 1 NRT 2ms TTIUE DTX Cycle 2 NRT 2ms TTIUE DTX Long Preamble NRT 2ms TTI

N2msUEDTXLongPreamble

CPC Streaming 10 ms TTICPC Optimization objective Str 10ms TTICQI DTX Timer Str 10ms TTICQI Feedback Cycle for CPC Str 10ms TTI

S10msCQIFeedbackCPC

Inactivity Threshold for UE DRX Cycle Str 10ms TTI

S10msInacThrUEDRXCycle


Inactivity Threshold for UE DTX Cycle 2 Str 10ms TTI

S10msInacThrUEDTXCycl2


MAC DTX Cycle Str 10ms TTIMAC Inactivity Threshold Str 10ms TTI


UE DPCCH burst1 Str 10ms TTIUE DPCCH burst2 Str 10ms TTIUE DRX Cycle Str 10ms TTIUE DTX Cycle 1 Str 10ms TTIUE DTX Cycle 2 Str 10ms TTIUE DTX Long Preamble Str 10ms TTI

S10msUEDTXLongPreamble

CPC Streaming 2 ms TTICPC Optimization objective Str 2ms TTI

RNHSPA S2msCQIDTXTimer CQI DTX Timer

RNHSPA S2msCQIFeedbackCPC

RNHSPA

RNHSPA

RNHSPA S2msMACDTXCycle MAC DTX Cycle

RNHSPA S2msMACInacThr



RNHSPA S2msUEDRXCycle UE DRX Cycle




RNHSPA CPC Voice 10 ms TTI CPCVoice10msTTI

RNHSPA V10msCPCOptObjective

RNHSPA V10msCQIDTXTimer CQI DTX Timer

RNHSPA

RNHSPA

RNHSPA

RNHSPA V10msMACDTXCycle MAC DTX Cycle

RNHSPA V10msMACInacThr

RNHSPA V10msUEDPCCHburst1 UE DPCCH burst1


RNHSPA V10msUEDRXCycle UE DRX Cycle

RNHSPA V10msUEDTXCycle1 UE DTX Cycle 1



RNHSPA CPC Voice 2 ms TTI CPCVoice2msTTI

RNHSPA V2msCPCOptObjective

RNHSPA V2msCQIDTXTimer CQI DTX Timer

RNHSPA V2msCQIFeedbackCPC

RNHSPA

RNHSPA

CQI DTX Timer Str 2ms TTICQI Feedback Cycle for CPC Str 2ms TTIInactivity Threshold for UE DRX Cycle Str 2ms TTI

S2msInacThrUEDRXCycle


Inactivity Threshold for UE DTX Cycle 2 Str 2ms TTI

S2msInacThrUEDTXCycl2


MAC DTX Cycle Str 2ms TTIMAC Inactivity Threshold Str 2ms TTI


UE DPCCH burst1 Str 2ms TTIUE DPCCH burst2 Str 2ms TTIUE DRX Cycle Str 2ms TTIUE DTX Cycle 1 Str 2ms TTIUE DTX Cycle 2 Str 2ms TTIUE DTX Long Preamble Str 2ms TTI

S2msUEDTXLongPreamble

CPC Optimization objective Voi 10ms TTICQI DTX Timer Voi 10ms TTICQI Feedback Cycle for CPC Voi 10ms TTI

V10msCQIFeedbackCPC

Inactivity Threshold for UE DRX Cycle Voi 10ms TTI

V10msInacThrUEDRXCycle


Inactivity Threshold for UE DTX Cycle 2 Voi 10ms TTI

V10msInacThrUEDTXCycl2


MAC DTX Cycle Voi 10ms TTIMAC Inactivity Threshold Voi 10ms TTI


UE DPCCH burst1 Voi 10ms TTIUE DPCCH burst2 Voi 10ms TTIUE DRX Cycle Voi 10ms TTIUE DTX Cycle 1 Voi 10ms TTIUE DTX Cycle 2 Voi 10ms TTIUE DTX Long Preamble Voi 10ms TTI

V10msUEDTXLongPreamble

CPC Optimization objective Voi 2ms TTICQI DTX Timer Voi 2ms TTICQI Feedback Cycle for CPC Voi 2ms TTIInactivity Threshold for UE DRX Cycle Voi 2ms TTI

V2msInacThrUEDRXCycle


Inactivity Threshold for UE DTX Cycle 2 Voi 2ms TTI

V2msInacThrUEDTXCycl2


RNHSPA V2msMACDTXCycle MAC DTX Cycle

RNHSPA V2msMACInacThr



RNHSPA V2msUEDRXCycle UE DRX Cycle




RNHSPA CPICHECNOSRBHSPA

RNHSPA

RNHSPA

RNHSPA

RNHSPA -

RNHSPA Discard Timer

RNHSPA -

RNHSPA -

RNHSPA -

RNHSPA -

RNHSPA

RNHSPA

RNHSPA

RNHSPA

RNHSPA -

RNHSPA E-DCH QoS classes EDCHQOSClasses -

RNHSPA Enabling Delay HHO EnablDelayHHO Enabling Delay

RNHSPA EnablDelayStand Enabling Delay

RNHSPA FDPCHAllocMinInterval -

RNHSPA -

RNHSPA FDPCHSetupEC Establishment Cause IE

RNHSPA

RNHSPA FactorEDCHMaxBitRate -

RNHSPA

MAC DTX Cycle Voi 2ms TTIMAC Inactivity Threshold Voi 2ms TTI


UE DPCCH burst1 Voi 2ms TTIUE DPCCH burst2 Voi 2ms TTIUE DRX Cycle Voi 2ms TTIUE DTX Cycle 1 Voi 2ms TTIUE DTX Cycle 2 Voi 2ms TTIUE DTX Long Preamble Voi 2ms TTI

V2msUEDTXLongPreamble

CPICH EcNo for SRB on HSPACPICH ECNO Threshold for E-DCH TTI 2 ms

CPICHECNOThreEDCH2MS

CPICH RSCP Threshold for E-DCH TTI 2 ms

CPICHRSCPThreEDCH2MS

CPICH RSCP Threshold for SRBs on HSDPA

CPICHRSCPThreSRBHSDPA

Dual Cell versus MIMO preference

DCellVsMIMOPreference

HSDPA Discard Timer for the CS voice service

DiscardTimerHSCSVoice

E-DCH channel type switch guard timer

EDCHCTSwitchGuardTimer

Window size of E-DCH MAC-d flow throughput measurement

EDCHMACdFlowThroughputAveWin

Low throughput threshold of the E-DCH MAC-d flow

EDCHMACdFlowThroughputRelThr

Low throughput time to trigger of the E-DCH MAC-d flow

EDCHMACdFlowThroughputTimetoTrigger

Low throughput time to trigger for streaming E-DCH

EDCHMACdflowtputStrTtT

E-DCH max number of HARQ retransmissions for streaming

EDCHMaxHARQReTxStr

E-DCH maximum # of HARQ retransmissions for 10 ms SRB

EDCHMaxHarqReTxSRB

E-DCH maximum # of HARQ retransmissions for 2 ms SRB

EDCHMaxHarqReTxSRB2MS

E-DCH maximum number of HARQ retransmissions

EDCHMaxNumberOfHARQReTx

Enabling Delay StandardMinimum interval between F-DPCH allocationsF-DPCH and SRBs on HSPA per TC

FDPCHAndSRBOnHSPATC

DCH instead of F-DPCH based on Establishment CauseFactor E-DCH max. Bit Rate for PS streaming RABs

FactorEDCHMaxBRPSstream

Factor to calculate EDCH maximum bit rateFactor E-DCH max. Bit Rate for 2 NRT RAB combinations

FactorEDCHMaxBitRate2NRT

RNHSPA

RNHSPA

RNHSPA

RNHSPA

RNHSPA

RNHSPA

RNHSPA

RNHSPA HSDPAMinBRULStrNRT

RNHSPA

RNHSPA HSDPA priority HSDPAPriority

RNHSPA HSDPARRCdiversity

RNHSPA HSDPASRBWindow

RNHSPA HSDPAinitialBitrateUL

RNHSPA

RNHSPA

RNHSPA

RNHSPA HS-DSCH QoS classes HSDSCHQoSclasses

RNHSPA HSPA NBR values HSPANBRValues

RNHSPA NBRForPri0DL

RNHSPA NBRForPri0UL

RNHSPA NBRForPri10DL

RNHSPA NBRForPri10UL





RNHSPA NBRForPri1DL

RNHSPA NBRForPri1UL

RNHSPA NBRForPri2DL

RNHSPA NBRForPri2UL

RNHSPA NBRForPri3DL

RNHSPA NBRForPri3UL

Factor E-DCH max. Bit Rate for 3 NRT RAB combinations

FactorEDCHMaxBitRate3NRT

DCH to HS-DSCH switch CPICH Ec/No reporting period

HSDPACPICHCTSRepPer

CPICH Ec/No threshold for serving HS-DSCH cell change

HSDPACPICHEcNoThreshold

Window for max repetitive serving HS-DSCH cell changes

HSDPACellChangeRepetitionTime

HSDPA channel type switching window

HSDPAChaTypeSwitchWindow

Initial bitrate for HSDPA UL DCH for NRT with streaming

HSDPAInitialBRULStrNRT

Max number of repetitive serving HS-DSCH cell changes

HSDPAMaxCellChangeRepetition

Min bitrate for HSDPA UL DCH for NRT with streamingHSDPA peak rate limitation to the RAB maximum

HSDPAPeakRateLimitRABMax

SHO of the HSDPA capable UECPICH Ec/No window for SRBs on HS-DSCH cell selectionInitial bitrate for HSDPA associated UL DCHMinimum bitrate for HSDPA associated UL DCH

HSDPAminAllowedBitrateUL

HS-DSCH channel type switch guard timer

HSDSCHCTSwitchGuardTimer

HS-DSCH guard timer due to low throughput

HSDSCHGuardTimerLowThroughput

Downlink NBR for Priority value 0Uplink NBR for Priority value 0Downlink NBR for Priority value 10Uplink NBR for Priority value 10Downlink NBR for Priority value 11Uplink NBR for Priority value 11Downlink NBR for Priority value 12Uplink NBR for Priority value 12Downlink NBR for Priority value 1Uplink NBR for Priority value 1Downlink NBR for Priority value 2Uplink NBR for Priority value 2Downlink NBR for Priority value 3Uplink NBR for Priority value 3

RNHSPA NBRForPri4DL

RNHSPA NBRForPri4UL

RNHSPA NBRForPri5DL

RNHSPA NBRForPri5UL

RNHSPA NBRForPri6DL

RNHSPA NBRForPri6UL

RNHSPA NBRForPri7DL

RNHSPA NBRForPri7UL

RNHSPA NBRForPri8DL

RNHSPA NBRForPri8UL

RNHSPA NBRForPri9DL

RNHSPA NBRForPri9UL

RNHSPA HSPDSCHAdjustPeriod

RNHSPA

RNHSPA HsdschGuardTimerHO

RNHSPA

RNHSPA InacUsersOverloadFact

RNHSPA InactCPCBatOptT -

RNHSPA InactCPCNoBatOptT -

RNHSPA InactNonCPCBatOptT -

RNHSPA -

RNHSPA

RNHSPA

RNHSPA

RNHSPA MACdflowtputStrTtT

RNHSPA MACdflowutilRelThr

RNHSPA MACdflowutilStrTtT

RNHSPA

RNHSPA

RNHSPA Max CS delay

RNHSPA MaxCSDelayRNCETTI2 Max CS delay

RNHSPA MaxCSDelayUE Max CS delay

Downlink NBR for Priority value 4Uplink NBR for Priority value 4Downlink NBR for Priority value 5Uplink NBR for Priority value 5Downlink NBR for Priority value 6Uplink NBR for Priority value 6Downlink NBR for Priority value 7Uplink NBR for Priority value 7Downlink NBR for Priority value 8Uplink NBR for Priority value 8Downlink NBR for Priority value 9Uplink NBR for Priority value 9HS-PDSCH code adjustment periodHappy bit delay condition for E-DCH

HappyBitDelayConditionEDCH

RRC: Happy bit delay condition

HS-DSCH guard time after switching to DCH due to HOInactive users number in XXX over NRT

InacUserNbrXXXOverNRT

Inactive users overload preventive factorInactive CPC user with battery optimization timerInactive CPC user without battery optimization timerInactive nonCPC user with battery optimization timerInactive nonCPC user without battery optimization timer

InactNonCPCNoBatOptT

Window size of the MAC-d flow throughput measurement

MACdflowthroughputAveWin

Low throughput threshold of the MAC-d flow

MACdflowthroughputRelThr

Low throughput time to trigger of the MAC-d flow

MACdflowthroughputTimetoTrigger

Low throughput time to trigger of streaming MAC-d flowLow utilisation threshold of the MAC-d flowLow util time to trigger of MAC-d flow for streamingLow utilization time to trigger of the MAC-d flow

MACdflowutilTimetoTrigger

Maximum bit rate of NRT MAC-d flow

MaxBitRateNRTMACDFlow

Max buffer time of the HS CS voice in RNC E-TTI 10 ms

MaxCSDelayRNCETTI10

Max buffer time of the HS CS voice in RNC E-TTI 2 msMax buffer time of the HS CS voice in UE

RNHSPA

RNHSPA

RNHSPA MaxReWaitTime

RNHSPA MaxReWaitTime2msTTI

RNHSPA

RNHSPA MaxReWaitTimeRT

RNHSPA

RNHSPA

RNHSPA NRTRBBRWithEDCHStr

RNHSPA PeriodicityForSI

RNHSPA

RNHSPA PowerOffsetForSI

RNHSPA Change origin RNHSPAChangeOrigin

RNHSPA RNHSPA Identifier RNHSPAId

RNHSPA T1HSCSVoice T1

RNHSPA T1HSFACH T1

RNHSPA TGPL1

RNHSPA TGPLHSDPAInterFreq TGPL1

RNHSPA -

RNHSPA -

RNHSPA -

RNHSPA -

RNHSPA

RNHSPA Weight of NRT DCH UE WeightDCH

RNHSPA WeightDCHBG

RNHSPA WeightDCHTHP1



RNHSPA Weight of HSPA UE WeightHSPA

RNHSPA WeightHSPABG

RNHSPA WeightHSPATHP1


E-DCH max number of retransmissions CS voice E-TTI 10

MaxEHARQReTxCSAMR10

E-DCH MAC-d flow maximum number of retransmissionsE-DCH max number of

retransmissions CS voice E-TTI 2

MaxEHARQReTxCSAMR2

E-DCH MAC-d flow maximum number of retransmissionsMaximum Reordering

Wait Time for MAC-esMaximum Reordering Wait Time for Mac-es E-DCH 2ms TTIMaximum reordering wait time parameter for MAC-es E-DCH

MaxReWaitTime2msTTI16

Maximum MAC-es Reordering Wait time for RT userMaximum Set of E-DPDCHs for CS voice E-TTI 10

MaxSetOfEDPDCHCSAMR10

Maximum Set of E-DPDCHs

Maximum Set of E-DPDCHs for CS voice E-TTI 2

MaxSetOfEDPDCHCSAMR2

Maximum Set of E-DPDCHs

NRT RB user bit rate with E-DCH streamingPeriodicity for scheduling info

RRC: Periodicity for Scheduling Info

HARQ power offset for E-DCH MAC-d flow of CS voice

PowerOffsetEHARQVoice

E-DCH MAC-d flow power offset

Power Offset for Scheduling Info

RRC: Power Offset for Scheduling Info

HSDPA re-ordering release timer T1 for the CS voiceHSDPA re-ordering release timer T1 for xCCH on HS-FACHTGPL for AMR and HSDPA and IF measurement

TGPLAMRHSDPAInterFreq

TGPL for HSDPA and IF measurementThreshold to define maximum E-DPDCH SR

ThresholdMaxEDPDCHSR

Threshold to define maximum EDPDCH SR 1920 kbps

ThresholdMaxEDPDCHSR1920kbps





Retry time for u-plane resource allocation in Cell_DCH

UPResAllocInCellDCHWait

Weight of NRT DCH UE BG RABWeight of NRT DCH UE THP1 RABWeight of NRT DCH UE THP2 RABWeight of NRT DCH UE THP3 RAB

Weight of HSPA UE BG RABWeight of HSPA UE THP1 RABWeight of HSPA UE THP2 RAB


RNMOBI Anchor FMCI Identifier AnchorFmciIdentifier

RNMOBI Anchor FMCS Identifier AnchorFmcsIdentifier

RNMOBI Anchor HOPI Identifier AnchorHopiIdentifier

RNMOBI Anchor HOPS Identifier AnchorHopsIdentifier

RNMOBI

RNMOBI Establishment Cause IE

RNMOBI

RNMOBI

RNMOBI

RNMOBI

RNMOBI EnableULQualDetRep

RNMOBI FastDormOverCpcPri

RNMOBI Fast UE Cancellation FastUECancel

RNMOBI FastUEPeriod

RNMOBI Fast UE Threshold FastUEThreshold

RNMOBI GAN ARFCN GANetwARFCN

RNMOBI GAN BCC GANetwBCC

RNMOBI GAN NCC GANetwNCC

RNMOBI TGSN

RNMOBI GsmHandoverAMR

RNMOBI GsmHandoverCS

RNMOBI GsmHandoverNrtPS

RNMOBI GsmHandoverRtPS

RNMOBI

RNMOBI

RNMOBI Reporting interval

RNMOBI

RNMOBI

RNMOBI

RNMOBI

RNMOBI Report periodicity

Weight of HSPA UE THP3 RAB

Cell Reselection Observing Time

CellReselectionObservingTime

Services for DRRC connection setup for HSDPA layer

DRRCForHSDPALayerServices

Identifier of the Default Authorised Network

DefaultAuthorisedNetworkId

DRRC connection setup for HSDPA layer enhancements

DirectedRRCForHSDPALayerEnhanc

Disable power in decision making for HSDPA layering

DisablePowerInHSDPALayeringDecision

CPICH EcNo Difference Threshold

EcnoDifferenceThreshold

Quality deterioration report from UL OLPC controllerFast Dormancy and CPC priority

Fast UE evaluation period

BCCH ARFCN, GAN ARFCN, GAN-ARFCNBase Station Colour Code (BCC)Network Colour Code (NCC)

Gap position single frame

GapPositionSingleFrame

Handover of AMR Service to GSMHandover of CS Service to GSMHandover of NRT PS Service to GSMHandover of RT PS Service to GSMRAB Combinations Supported by HSCAHO

HSCAHORabCombSupport

Averaging window of the CPICH Ec/No measurement

HSDPACPICHAveWindow

Reporting period of the CPICH Ec/No measurement

HSDPACPICHReportPeriod

Minimum interval between serving HS-DSCH cell changes

HSDPACellChangeMinInterval

HSDPA layers load sharing threshold

HSDPALayerLoadShareThreshold

Averaging window of the SIRerror measurement

HSDPASIRErrorAveWindow

Higher layer filtering coefficient for HSDPA SIRerror

HSDPASIRErrorFilterCoefficient

Measurement filter coefficient

Reporting period of the SIRerror measurement

HSDPASIRErrorReportPeriod

RNMOBI

RNMOBI

RNMOBI HSDPAServCellWindow

RNMOBI HSPADRNCEcNoOffset

RNMOBI

RNMOBI IBTSRabCombSupport

RNMOBI

RNMOBI LowerRxTxTimeDiff

RNMOBI MBLB Guard Timer MBLBGuardTimer -

RNMOBI Max cell reselections MaxCellReselections

RNMOBI MaxNumISHOClPerAS

RNMOBI MultipleBSICIdent

RNMOBI

RNMOBI

RNMOBI Measurement Threshold

RNMOBI PreferBandForLayering

RNMOBI RANAPCauseLoadHO

RNMOBI RANAPCause1LoadHO



RNMOBI RANAPCauseServHO

RNMOBI RANAPCause1ServHO



RNMOBI Change origin RNMOBIChangeOrigin

RNMOBI RNMOBI Identifier RNMOBIId

RNMOBI -

RNMOBI

RNMOBI

RNMOBI

RNMOBI

RNMOBI

SIRerror threshold for the serving HS-DSCH cell

HSDPASIRErrorServCell

SIRerror threshold for the target cell

HSDPASIRErrorTargetCell

CPICH Ec/No window for serving HS-DSCH cell selectionDRNC Ec/No offset for HSPA Inter-RNC Cell ChangeSIR error offset for HSPA Inter-RNC Cell Change

HSPADRNCSIRErrorOffset

RAB Combinations Supported by IBTSLoad handover minimum NRT DCH allocation time

LHOMinNrtDchAllocTime

Lower Rx-Tx Time Difference Threshold

UE Rx-Tx time difference threshold

Max Number of ISHO Cancellations Per Active Set for a UMultiple BSIC IdentificationNCHO filter coefficient common load meas DRNC cell

NCHOFilterCoeffComLoadMeasDRNCCell

Measurement Filter Coefficient

NCHO hysteresis common load measurement DRNC cell

NCHOHystComLoadMeasDRNCCell

Measurement Hysteresis Time

NCHO threshold common load measurement DRNC cell

NCHOThrComLoadMeasDRNCCell

Preferred Band for LayeringRANAP cause to indicate load handoverRANAP cause 1 to indicate load handoverRANAP cause 2 to indicate load handoverRANAP cause 3 to indicate load handoverRANAP cause to indicate service handoverRANAP cause 1 to indicate service handoverRANAP cause 2 to indicate service handoverRANAP cause 3 to indicate service handover

SLHO handling of cell load measurement is not active

SLHOHandlingOfCellLoadMeasNotAct

Service profile for background PS NRT data in SLHO

SLHOProfileBackgroundPSNRTData

Service profile for conversational CS speech in SLHO

SLHOProfileConvCSSpeech

Service profile for conversational CS T data in SLHO

SLHOProfileConvCSTData

Service profile for conversational PS RT data in SLHO

SLHOProfileConvPSRTData

Service profile for conversational PS speech in SLHO

SLHOProfileConvPSSpeech

RNMOBI

RNMOBI

RNMOBI

RNMOBI

RNMOBI

RNMOBI SLHOUseConvCSTData

RNMOBI

RNMOBI

RNMOBI

RNMOBI

RNMOBI

RNMOBI ServBtwnHSDPALayers

RNMOBI ServicesToHSDPALayer

RNMOBI TGPL1

RNMOBI TGPL1

RNMOBI TGPL1

RNMOBI TGPL1

RNMOBI TGPLsingleframeCSgsm TGPL1

RNMOBI TGPL1

RNMOBI TGPL1

RNMOBI TGPL1

RNMOBI TGPL1

RNMOBI TGPL1

RNMOBI T RelocOverall TRelocOverall TRelocOverall

RNMOBI T RelocPrep TRelocPrep TRELOCprep

RNMOBI UEQualityRepInterv

RNMOBI UETxPowerMaxRef

RNMOBI

RNMOBI UpperRxTxTimeDiff

RNPS Offset for activation time ActivationTimeOffset

RNPS CellDCHtestTmr

RNPS CrQueuingTimeDL

Service profile for interactive PS NRT data in SLHO

SLHOProfileInteractivePSNRTData

Service profile for streaming CS NT data in SLHO

SLHOProfileStreamCSNTData

Service profile for streaming PS RT data in SLHO

SLHOProfileStreamPSRTData

Use of SLHO for background PS NRT data

SLHOUseBackgroundPSNRTData

Use of SLHO for conversational CS speech

SLHOUseConvCSSpeech

Use of SLHO for conversational CS transparent dataUse of SLHO for conversational PS RT data

SLHOUseConvPSRTData

Use of SLHO for conversational PS speech

SLHOUseConvPSSpeech

Use of SLHO for interactive PS NRT data

SLHOUseInteractivePSNRTData

Use of SLHO for streaming CS non-transparent data

SLHOUseStreamCSNTData

Use of SLHO for streaming PS RT data

SLHOUseStreamPSRTData

Services between HSDPA layersServices to HSDPA layer in state transitionTransmision gap pattern length in case of double frame: NRT PS service and GSM measurement

TGPLdoubleframeNRTPSgsm

Transmision gap pattern length in case of double frame: NRT PS service and IF measurement

TGPLdoubleframeNRTPSinterFreq

Transmision gap pattern length in case of single frame: AMR service and GSM measurement

TGPLsingleframeAMRgsm

Transmision gap pattern length in case of single frame: AMR service and IF measurement

TGPLsingleframeAMRinterFreq

Transmision gap pattern length in case of single frame: CS service and GSM measurementTransmision gap pattern length in case of single frame: CS service and IF measurement

TGPLsingleframeCSinterFreq

Transmision gap pattern length in case of single frame: NRT PS service and GSM measurement

TGPLsingleframeNRTPSgsm

Transmision gap pattern length in case of single frame: NRT PS service and IF measurement

TGPLsingleframeNRTPSinterFreq

Transmision gap pattern length in case of single frame: RT PS service and GSM measurement

TGPLsingleframeRTPSgsm

Transmision gap pattern length in case of single frame: RT PS service and IF measurement

TGPLsingleframeRTPSinterFreq

UE Quality Measurement Reporting IntervalMaximum Reference UE transmission powerUL quality deterioration reporting threshold

ULQualDetRepThreshold

Upper Rx-Tx Time Difference Threshold

UE Rx-Tx time difference threshold

Test timer for inactivity supervision in Cell_DCH stateMaximum downlink capacity request queuing time

RNPS CrQueuingTimeUL

RNPS

RNPS DCHUtilHighAveWin

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS DCHUtilLowerAveWin32

RNPS

RNPS DCHUtilLowerAveWin64

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS DCHUtilMeasGuardTime

RNPS DCHUtilRelAveWin

RNPS DCHUtilRelThrDL

RNPS DCHUtilRelThrUL

RNPS

RNPS

RNPS

RNPS

RNPS DCHUtilUpperAveWin32

Maximum uplink capacity request queuing timeThreshold below the downgrade bit rate

DCHUtilBelowDowngradeThr

Window size for the high throughput measurementThreshold below the NRT DCH data rate

DCHUtilHighBelowNRTDataRateThr

Time to trigger for the high throughput measurement

DCHUtilHighTimeToTrigger

Window size for the lower throughput measurement

DCHUtilLowerAveWinBitRate

Lower measurement window size for NRT DCH of 128 kbps

DCHUtilLowerAveWin128

Lower measurement window size for NRT DCH of 256 kbps


Lower measurement window size for NRT DCH of 32 kbpsLower measurement window size for NRT DCH of 384 kbps


Lower measurement window size for NRT DCH of 64 kbpsLower downgrade threshold

DCHUtilLowerDowngradeThrBitRate

Lower downgrade threshold for the NRT DCH of 128 kbps

DCHUtilLowerDowngradeThr128









Time to trigger for the lower throughput measurement

DCHUtilLowerTimeToTriggerBitRate

Lower time to trigger for the NRT DCH of 128 kbps

DCHUtilLowerTimeToTrigger128









Guard time for throughput measurementWindow size for the release throughput measurementThreshold for the downlink DCH release measurementThreshold for the uplink DCH release measurementTime to trigger for the release throughput measurement

DCHUtilRelTimeToTrigger

Window size for the upper throughput measurement

DCHUtilUpperAveWinBitRate

Upper measurement window size for NRT DCH of 128 kbps

DCHUtilUpperAveWin128




RNPS

RNPS DCHUtilUpperAveWin64

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS FactorMinPBSinterval

RNPS Discard Timer

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS



Upper measurement window size for NRT DCH of 64 kbpsUpper downgrade threshold

DCHUtilUpperDowngradeThrBitRate

Upper downgrade threshold for the NRT DCH of 128 kbps

DCHUtilUpperDowngradeThr128









Time to trigger for the upper throughput measurement

DCHUtilUpperTimeToTriggerBitRate

Upper time to trigger for the NRT DCH of 128 kbps

DCHUtilUpperTimeToTrigger128









Dynamic Link Optimisation prohibit time

DLOptimisationProhibitTime

Power offset for dynamic link optimisation

DLOptimisationPwrOffset

Factor to determine minimum PBS intervalDiscard Timer for DTCH data on HS-FACH

HSFACHDiscardTimerDTCH

MAC-ehs Reset Timer for DTCH data on HS-FACH

HSFACHRestTimerDTCH

MAC-ehs Reset Timer, Treset

ICR Downgrade Delay Timer

ICRDowngradeDelayTimer

Inactivation detection for streaming radio bearer

InactDetForStreamingRB

Inactivity timer for downlink DCH

InactivityTimerDownlinkDCH

Inactivity timer for downlink 128kbps DCH

InactivityTimerDownlinkDCH128















Inactivity timer for uplink DCH

InactivityTimerUplinkDCH

Inactivity timer for uplink 128kbps DCH

InactivityTimerUplinkDCH128

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS IurPriority

RNPS QoS Priority Mapping QoSPriorityMapping

RNPS PriForBackARP1

RNPS PriForBackARP2

RNPS PriForBackARP3

RNPS PriForConvOnHSPA

RNPS PriForHSFACHDTCH

RNPS PriForIntSignaling

RNPS PriForIntTHP1ARP1









RNPS PriForSRBsOnHSPA

RNPS PriForStreamARP1



RNPS Change origin RNPSChangeOrigin

RNPS RNPS Identifier RNPSId

RNPS

RNPS















Priority handling over Iur-interface

Priority for Background TC with ARP 1Priority for Background TC with ARP 2Priority for Background TC with ARP 3Priority for conversational on HSPAPriority for PS data over HSPA on CELL_FACH state.Priority for Interactive TC marked for signaling usePriority for Interactive TC with THP 1 and ARP 1Priority for Interactive TC with THP 1 and ARP 2Priority for Interactive TC with THP 1 and ARP 3Priority for Interactive TC with THP 2 and ARP 1Priority for Interactive TC with THP 2 and ARP 2Priority for Interactive TC with THP 2 and ARP 3Priority for Interactive TC with THP 3 and ARP 1Priority for Interactive TC with THP 3 and ARP 2Priority for Interactive TC with THP 3 and ARP 3Priority for SRBs on HSPAPriority for Streaming traffic class with ARP1Priority for Streaming traffic class with ARP2Priority for Streaming traffic class with ARP3

RT-over-NRT priority threshold for ARP1

RTOverNRTPriThresholdARP1



RNPS

RNPS ToCellFACHinTest

RNPS TrafVolPendingTimeDL

RNPS TrafVolPendingTimeUL

RNPS TrafVolThresholdDLHigh

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS TrafVolThresholdULHigh Reporting Threshold

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS

RNPS TrafVolThresholdULLow Reporting Threshold

RNPS TrafVolTimeToTriggerDL

RNPS TrafVolTimeToTriggerUL Time to trigger

RNPS ULLoadStateTTT

RNRLC

RNRLC

RNRLC AMRLCHSFACHPS

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC



Test switch for Iu release in Cell_DCH stateDownlink traffic volume measurement pending time after triggerUplink traffic volume measurement pending time after trigger

pending time after trigger

Downlink traffic volume measurement high thresholdTraffic volume threshold for downlink NRT DCH bit rates

TrafVolThresholdDLHighBitRate

Traffic volume threshold for DL NRT DCH of 128 kbps

TrafVolThresholdDLHighDCH128











Uplink traffic volume measurement high thresholdTraffic volume threshold for uplink NRT DCH bit rates

TrafVolThresholdULHighBitRate

Traffic volume threshold for UL NRT DCH of 128 kbps

TrafVolThresholdULHighDCH128











Uplink traffic volume measurement low thresholdDownlink traffic volume measurement time to triggerUplink traffic volume measurement time to triggerUL loaded state time to triggerAM RLC buffer max total overbooking for 2 PS RABs

AMRLCBufMaxOverbook2NRT

AM RLC buffer max overbooking for more than 2 PS RABs

AMRLCBufMaxOverbook3NRT

AM RLC configuration for PS NRT with HS-FACHAM RLC MaxDAT transmissions for PS NRT with HS-FACH

AMRLCHSFACHPSMaxDAT

AM RLC MaxMRW transmissions for PS NRT with HS-FACH

AMRLCHSFACHPSMaxMRW

AM RLC MaxRST transmissions for PS NRT with HS-FACH

AMRLCHSFACHPSMaxRST

AM RLC status period max for PS NRT with HS-FACH

AMRLCHSFACHPSPeriodMax

AM RLC status period min for PS NRT with HS-FACH

AMRLCHSFACHPSPeriodMin

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

AM RLC period Poll_PDU for PS NRT with HS-FACH

AMRLCHSFACHPSPollPDU

AM RLC period Poll_SDU for PS NRT with HS-FACH

AMRLCHSFACHPSPollSDU

AM RLC period Poll_Window for PS NRT with HS-FACH

AMRLCHSFACHPSPollWin

AM RLC status report triggers for PS NRT with HS-FACH

AMRLCHSFACHPSTriggers

AM RLC round trip time with HS-DSCH/RACH

AMRLCRespHSFACHandRACH

AM RLC round trip time with HS-DSCH/HS-RACH

HSFACHAMRLCRespHSRACH

AM RLC maximum buffer allocation for UE

AMRLCMaximumBufferUE

AM RLC maximum buffer allocation for UE capability 100

AMRLCMaximumBufferUE100








AMRLCMaximumBufferUE1k












AMRLCmaximumBufferUE400

AM RLC configuration for PS NRT with DCH

AMRLCOnDCHOfNRTPS

AM RLC status reports count for PS NRT with DCH

AMRLCOnDCHOfNRTPSCount

AM RLC retransmission filter for PS NRT with DCH

AMRLCOnDCHOfNRTPSFilterReTX

AM RLC MaxDAT transmissions for PS NRT with DCH

AMRLCOnDCHOfNRTPSMaxDAT

AM RLC MaxMRW transmissions for PS NRT with DCH

AMRLCOnDCHOfNRTPSMaxMRW

AM RLC MaxRST transmissions for PS NRT with DCH

AMRLCOnDCHOfNRTPSMaxRST

AM RLC status period max for PS NRT with DCH

AMRLCOnDCHOfNRTPSPeriodMax

AM RLC status period min for PS NRT with DCH

AMRLCOnDCHOfNRTPSPeriodMin

AM RLC period Poll_PDU for PS NRT with DCH

AMRLCOnDCHOfNRTPSPollPDU

AM RLC period Poll_SDU for PS NRT with DCH

AMRLCOnDCHOfNRTPSPollSDU

AM RLC period Poll_Window for PS NRT with DCH

AMRLCOnDCHOfNRTPSPollWindow

AM RLC status report triggers for PS NRT with DCH

AMRLCOnDCHOfNRTPSTriggers

AM RLC configuration for SRB13.6 with DCH

AMRLCOnDCHOfSRB136

AM RLC MaxDAT transmissions for SRB13.6 with DCH

AMRLCOnDCHOfSRB136MaxDAT

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

AM RLC status period max for SRB13.6 with DCH

AMRLCOnDCHOfSRB136PeriodMax

AM RLC status period min for SRB13.6 with DCH

AMRLCOnDCHOfSRB136PeriodMin

AM RLC period Poll_PDU for SRB13.6 with DCH

AMRLCOnDCHOfSRB136PollPDU

AM RLC period Poll_SDU for SRB13.6 with DCH

AMRLCOnDCHOfSRB136PollSDU

AM RLC period Poll_Window for SRB13.6 with DCH

AMRLCOnDCHOfSRB136PollWindow

AM RLC status report triggers for SRB13.6 with DCH

AMRLCOnDCHOfSRB136Triggers

AM RLC configuration for SRB3.4 with DCH

AMRLCOnDCHOfSRB34

AM RLC MaxDAT transmissions for SRB3.4 with DCH

AMRLCOnDCHOfSRB34MaxDAT

AM RLC status period max for SRB3.4 with DCH

AMRLCOnDCHOfSRB34PeriodMax

AM RLC status period min for SRB3.4 with DCH

AMRLCOnDCHOfSRB34PeriodMin

AM RLC period Poll_PDU for SRB3.4 with DCH

AMRLCOnDCHOfSRB34PollPDU

AM RLC period Poll_SDU for SRB3.4 with DCH

AMRLCOnDCHOfSRB34PollSDU

AM RLC period Poll_Window for SRB3.4 with DCH

AMRLCOnDCHOfSRB34PollWindow

AM RLC status report triggers for SRB3.4 with DCH

AMRLCOnDCHOfSRB34Triggers

AM RLC configuration for PS streaming with DCH

AMRLCOnDCHOfStream

AM RLC status reports count for PS streaming with DCH

AMRLCOnDCHOfStreamCount

AM RLC SDU discard time for PS streaming with DCH

AMRLCOnDCHOfStreamDiscardTime

AM RLC retransmission filter for PS streaming with DCH

AMRLCOnDCHOfStreamFilterReTX

AM RLC MaxDAT transmissions for PS streaming with DCH

AMRLCOnDCHOfStreamMaxDAT

AM RLC MaxMRW transmissions for PS streaming with DCH

AMRLCOnDCHOfStreamMaxMRW

AM RLC MaxRST transmissions for PS streaming with DCH

AMRLCOnDCHOfStreamMaxRST

AM RLC status period max for PS streaming with DCH

AMRLCOnDCHOfStreamPeriodMax

AM RLC status period min for PS streaming with DCH

AMRLCOnDCHOfStreamPeriodMin

AM RLC period Poll_PDU for PS streaming with DCH

AMRLCOnDCHOfStreamPollPDU

AM RLC period Poll_SDU for PS streaming with DCH

AMRLCOnDCHOfStreamPollSDU

AM RLC period Poll_Window for PS streaming with DCH

AMRLCOnDCHOfStreamPollWindow

AM RLC status report triggers for PS streaming with DCH

AMRLCOnDCHOfStreamTriggers

AM RLC configuration for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPS

AM RLC status reports count for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPSCount

AM RLC MaxDAT transmissions for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPSMaxDAT

AM RLC MaxMRW transmissions for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPSMaxMRW

AM RLC maxRST transmissions for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPSMaxRST

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC EDCHStrPSCount

RNRLC EDCHStrPSDiscardTime

RNRLC EDCHStrPSMaxDAT

RNRLC EDCHStrPSMaxMRW

RNRLC EDCHStrPSMaxRST

RNRLC EDCHStrPSPeriodMax

RNRLC EDCHStrPSPeriodMin

RNRLC EDCHStrPSPollPDU

RNRLC EDCHStrPSPollSDU

RNRLC EDCHStrPSPollWindow

RNRLC EDCHStrPSTriggers

RNRLC AMRLCOnFACHOfPS

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC AMRLCOnFACHOfSRB

RNRLC

RNRLC

RNRLC

AM RLC status period max for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPSPeriodMax

AM RLC status period min for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPSPeriodMin

AM RLC period Poll_PDU for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPSPollPDU

AM RLC period Poll_SDU for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPSPollSDU

AM RLC period Poll_Window for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPSPollWindow

AM RLC status report triggers for PS NRT with E-DCH

AMRLCOnEDCHOfNRTPSTriggers

AM RLC configuration for PS streaming with E-DCH

AMRLCOnEDCHOfStrPS

AM RLC status reports count for PS streaming E-DCHAM RLC SDU discard time for PS streaming E-DCHAM RLC MaxDAT transmissions for PS streaming E-DCHAM RLC MaxMRW transmissions for PS streaming E-DCHAM RLC maxRST transmissions for PS streaming E-DCHAM RLC status period max for PS streaming E-DCHAM RLC status period min for PS streaming E-DCHAM RLC period Poll_PDU for PS streaming E-DCHAM RLC period Poll_SDU for PS streaming E-DCHAM RLC period Poll_Window for PS streaming E-DCHAM RLC status report triggers for PS streaming E-DCHAM RLC configuration for PS NRT with FACH/RACHAM RLC MaxDAT transmissions for PS NRT with FACH/RACH

AMRLCOnFACHOfPSMaxDAT

AM RLC MaxMRW transmissions for PS NRT with FACH/RACH

AMRLCOnFACHOfPSMaxMRW

AM RLC MaxRST transmissions for PS NRT with FACH/RAC

AMRLCOnFACHOfPSMaxRST

AM RLC status period max for PS NRT with FACH/RACH

AMRLCOnFACHOfPSPeriodMax

AM RLC status period min for PS NRT with FACH/RACH

AMRLCOnFACHOfPSPeriodMin

AM RLC period Poll_PDU for PS NRT with FACH/RACH

AMRLCOnFACHOfPSPollPDU

AM RLC period Poll_SDU for PS NRT with FACH/RACH

AMRLCOnFACHOfPSPollSDU

AM RLC period Poll_Window for PS NRT with FACH/RACH

AMRLCOnFACHOfPSPollWindow

AM RLC status report triggers for PS NRT with FACH/RACH

AMRLCOnFACHOfPSTriggers

AM RLC configuration for SRB with FACH/RACHAM RLC MaxDAT transmissions for SRB with FACH/RACH

AMRLCOnFACHOfSRBMaxDAT

AM RLC status period max for SRB with FACH/RACH

AMRLCOnFACHOfSRBPeriodMax

AM RLC status period min for SRB with FACH/RACH

AMRLCOnFACHOfSRBPeriodMin

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC HSDSCHStrPSCount

RNRLC

RNRLC HSDSCHStrPSMaxDAT

RNRLC

RNRLC HSDSCHStrPSMaxRST

RNRLC

RNRLC

RNRLC HSDSCHStrPSPollPDU

RNRLC HSDSCHStrPSPollSDU

RNRLC

RNRLC HSDSCHStrPSTriggers

RNRLC AMRLCRelatTXWindow

RNRLC

RNRLC

AM RLC period Poll_PDU for SRB with FACH/RACH

AMRLCOnFACHOfSRBPollPDU

AM RLC period Poll_SDU for SRB with FACH/RACH

AMRLCOnFACHOfSRBPollSDU

AM RLC period Poll_Window for SRB with FACH/RACH

AMRLCOnFACHOfSRBPollWindow

AM RLC status report triggers for SRB with FACH/RACH

AMRLCOnFACHOfSRBTriggers

AM RLC configuration for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPS

AM RLC status reports count for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSCount

AM RLC retransmission filter for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSFilterReTX

AM RLC MaxDAT transmissions for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSMaxDAT

AM RLC MaxMRW transmissions for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSMaxMRW

AM RLC maxRST transmissions for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSMaxRST

AM RLC status period max for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSPeriodMax

AM RLC status period min for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSPeriodMin

AM RLC period Poll_PDU for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSPollPDU

AM RLC period Poll_SDU for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSPollSDU

AM RLC period Poll_Window for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSPollWindow

AM RLC status report triggers for PS NRT with HS-DSCH

AMRLCOnHSDSCHOfNRTPSTriggers

AM RLC configuration for PS streaming with HS-DSCH

AMRLCOnHSDSCHOfStrPS

AM RLC SDU discard time for PS streaming with HS-DSCH

HSDSCHStrDiscardTime

AM RLC status reports count for PS stream with HS-DSCHAM RLC retransmission filter for PS stream with HS-DSCH

HSDSCHStrPSFilterReTX

AM RLC MaxDAT transmissions for PS stream with HS-DSCHAM RLC MaxMRW transmissions for PS stream with HS-DSCH

HSDSCHStrPSMaxMRW

AM RLC maxRST transmissions for PS stream with HS-DSCHAM RLC status period max for PS streaming with HS-DSCH

HSDSCHStrPSPeriodMax

AM RLC status period min for PS streaming with HS-DSCH

HSDSCHStrPSPeriodMin

AM RLC period Poll_PDU for PS streaming with HS-DSCHAM RLC period Poll_SDU for PS streaming with HS-DSCHAM RLC period Poll_Window for PS streaming with HS-DSCH

HSDSCHStrPSPollWindow

AM RLC status report triggers for PS str with HS-DSCHAM RLC relative transmission window sizesAM RLC relative Tx window size defining data rate 1

AMRLCRelatTXWindowRate1

AM RLC relative Tx window size assigned to data rate 1

AMRLCRelatTXWindowRate1Size

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC AMRLCRespTimeDCH

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC AMRLCRespTimeEDCH

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC AMRLCSRBHSPA

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

AM RLC relative Tx window size defining data rate 2




























AM RLC round trip times with DCHAM RLC round trip time with DCH/DCH of TTI 10 ms

AMRLCRespTimeDCH10

AM RLC round trip time with DCH/DCH of TTI 20 ms

AMRLCRespTimeDCH20

AM RLC round trip time with DCH/DCH of TTI 40 ms

AMRLCRespTimeDCH40

AM RLC round trip time for DCH/HS-DSCH

AMRLCRespTimeDCHRevHSDSCH

AM RLC round trip time for E-DCH/DCH

AMRLCRespTimeRevEDCH

AM RLC round trip time with E-DCHAM RLC round trip time with FACH/RACH

AMRLCRespTimeFACHAndRACH

AM RLC round trip times with HS-DSCH

AMRLCRespTimeHSDSCH

AM RLC round trip time with HS-DSCH/DCH

AMRLCRespTimeHSDSCHRevDCH

AM RLC round trip time with HS-DSCH/E-DCH

AMRLCRespTimeHSDSCHRevEDCH

AM RLC configuration for SRB on HSPAAM RLC round trip time for SRB on HSPA

AMRLCRespTimeSRBHSPA

AM RLC MaxDAT transmissions for SRB on HSPA

AMRLCSRBHSPAMaxDAT

AM RLC status period max for SRB on HSPA

AMRLCSRBHSPAPeriodMax

AM RLC status period min for SRB on HSPA

AMRLCSRBHSPAPeriodMin

AM RLC period Poll_PDU for SRB on HSPA

AMRLCSRBHSPAPollPDU

AM RLC period Poll_SDU for SRB on HSPA

AMRLCSRBHSPAPollSDU

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC

RNRLC PDUSizeBitRateThr

RNRLC PDUSizeCodeThreshold

RNRLC PDUSizeSIRThr

RNRLC Change origin RNRLCChangeOrigin

RNRLC RNRLC Identifier RNRLCId

RNRLC SDUdiscardModeRTPS

RNRLC

RNTRM A2EA

RNTRM

RNTRM Af122AMRDL

RNTRM Af122AMRUL

RNTRM Af59AMRDL

RNTRM Af59AMRUL

RNTRM

RNTRM Af144CSStreDL

RNTRM Af144CSStreUL

RNTRM Af576CSStreDL

RNTRM Af576CSStreUL

RNTRM Af64CSConDL

RNTRM Af64CSConUL

RNTRM

RNTRM Af128And136DCCHDL

RNTRM Af128And136DCCHUL




AM RLC period Poll_Window for SRB on HSPA

AMRLCSRBHSPAPollWindow

AM RLC status report triggers for SRB on HSPA

AMRLCSRBHSPATriggers

AM RLC transmission window sizes for SRBs 2, 3 and 4

AMRLCTXWindowSizeSRB

AM RLC transmission window size for SRB 2

AMRLCTXWindowSizeSRB2





Bit rate threshold for RLC PDU size 656 with HS-DSCHNumber of HS-PDSCH codes for greater RLC PDU sizeSIR threshold for RLC PDU size 656 with HS-DSCH

SDU discard mode for RT PS RAB employing RLC AMUM RLC SDU discard time in UE for CS voice over HSPA

UMRLCEVoiceDiscardTime

Transmission RLC discard

AAL type 2 end point address for IurActivity factor for AMR DCH traffic bearers

ActivityFactorForAMRDCHTrafficBearers

Activity factor for 12.2 / 12.65 AMR DCH DL bearerActivity factor for 12.2 / 12.65 AMR DCH UL bearerActivity factor for 5.9 AMR DCH DL bearerActivity factor for 5.9 AMR DCH UL bearerActivity factor for CS DCH traffic bearers

ActivityFactorForCSDCHTrafficBearers

Activity factor for 14.4 CS streaming DL bearerActivity factor for 14.4 CS streaming UL bearerActivity factor for 57.6 CS streaming DL bearerActivity factor for 57.6 CS streaming UL bearerActivity factor for 64 CS conversational DL bearerActivity factor for 64 CS conversational UL bearerActivity factor for DCCH traffic bearers

ActivityFactorForDCCHTrafficBearers

Activity factor for 12.8/13.6 DCCH DL bearerActivity factor for 12.8/13.6 DCCH UL bearerActivity factor for 1.6/1.7 DCCH DL bearerActivity factor for 1.6/1.7 DCCH UL bearerActivity factor for 3.2/3.4 DCCH DL bearer


RNTRM

RNTRM AfFACHCCDL

RNTRM AfFACHCIDL

RNTRM AfFACHContUL

RNTRM AfFACHSDL

RNTRM AfFACHUDL

RNTRM AfRACH208UL

RNTRM AfRACHContDL

RNTRM ActivityFactorForHSPA

RNTRM AfRTHSDPA

RNTRM AfRTHSUPA

RNTRM AfSRBOnHSDPA

RNTRM AfSRBOnHSUPA

RNTRM

RNTRM Af128NRTDCHDL

RNTRM Af128NRTDCHUL

RNTRM Af16NRTDCHDL

RNTRM Af16NRTDCHUL

RNTRM Af256NRTDCHDL

RNTRM Af256NRTDCHUL

RNTRM Af32NRTDCHDL

RNTRM Af32NRTDCHUL

RNTRM Af384NRTDCHDL

RNTRM Af384NRTDCHUL

RNTRM Af64NRTDCHDL

RNTRM Af64NRTDCHUL

RNTRM Af8NRTDCHDL

RNTRM Af8NRTDCHUL

RNTRM

RNTRM AfPCHContUL

RNTRM AfPCHDL

Activity factor for 3.2/3.4 DCCH UL bearerActivity factor for FACH and RACH traffic bearers

ActivityFactorForFACHRACHTrafficBearers

Activity factor for FACH-C/C DL bearerActivity factor for FACH-C/I DL bearerActivity factor for FACH control UL bearerActivity factor for FACH-S DL bearerActivity factor for FACH-U DL bearerActivity factor for RACH 20.8 UL bearerActivity factor for RACH control DL bearerActivity factor for HSPA bearersActivity factor for RT HSDPA bearerActivity factor for RT HSUPA bearerActivity factor for SRB on HSDPA bearerActivity factor for SRB on HSUPA bearerActivity factor for NRT DCH traffic bearers

ActivityFactorForNRTDCHTrafficBearers

Activity factor for 128 NRT DCH DL bearerActivity factor for 128 NRT DCH UL bearerActivity factor for 16 NRT DCH DL bearerActivity factor for 16 NRT DCH UL bearerActivity factor for 256 NRT DCH DL bearerActivity factor for 256 NRT DCH UL bearerActivity factor for 32 NRT DCH DL bearerActivity factor for 32 NRT DCH UL bearerActivity factor for 384 NRT DCH DL bearerActivity factor for 384 NRT DCH UL bearerActivity factor for 64 NRT DCH DL bearerActivity factor for 64 NRT DCH UL bearerActivity factor for 8 NRT DCH DL bearerActivity factor for 8 NRT DCH UL bearerActivity factor for PCH traffic bearers

ActivityFactorForPCHTrafficBearers

Activity factor for PCH control UL bearerActivity factor for PCH DL bearer

RNTRM

RNTRM Af128RTPSAMDL

RNTRM Af128RTPSAMUL

RNTRM Af128RTPSUMDL

RNTRM Af128RTPSUMUL

RNTRM Af16RTPSAMDL

RNTRM Af16RTPSAMUL

RNTRM Af16RTPSUMDL

RNTRM Af16RTPSUMUL

RNTRM Af256RTPSAMDL

RNTRM Af256RTPSUMDL

RNTRM Af32RTPSAMDL

RNTRM Af32RTPSAMUL

RNTRM Af32RTPSUMDL

RNTRM Af32RTPSUMUL

RNTRM Af64RTPSAMDL

RNTRM Af64RTPSAMUL

RNTRM Af64RTPSUMDL

RNTRM Af64RTPSUMUL

RNTRM Af8RTPSAMDL

RNTRM Af8RTPSAMUL

RNTRM Af8RTPSUMDL

RNTRM Af8RTPSUMUL

RNTRM Echo Request Sending EchoRequestSending

RNTRM

RNTRM

RNTRM

RNTRM

RNTRM IP Stack Error timer IPStackErrorTimer

RNTRM Iu-CS Digit analysis tree IuDATree

RNTRM Iub Digit analysis tree IubDATree

RNTRM Iur Digit analysis tree IurDATree

Activity factor for RT PS traffic bearers

ActivityFactorForRTPSTrafficBearers

Activity factor for 128 RT PS AM DL bearerActivity factor for 128 RT PS AM UL bearerActivity factor for 128 RT PS UM DL bearerActivity factor for 128 RT PS UM UL bearerActivity factor for 16 RT PS AM DL bearerActivity factor for 16 RT PS AM UL bearerActivity factor for 16 RT PS UM DL bearerActivity factor for 16 RT PS UM UL bearerActivity factor for 256 RT PS AM DL bearerActivity factor for 256 RT PS UM DL bearerActivity factor for 32 RT PS AM DL bearerActivity factor for 32 RT PS AM UL bearerActivity factor for 32 RT PS UM DL bearerActivity factor for 32 RT PS UM UL bearerActivity factor for 64 RT PS AM DL bearerActivity factor for 64 RT PS AM UL bearerActivity factor for 64 RT PS UM DL bearerActivity factor for 64 RT PS UM UL bearerActivity factor for 8 RT PS AM DL bearerActivity factor for 8 RT PS AM UL bearerActivity factor for 8 RT PS UM DL bearerActivity factor for 8 RT PS UM UL bearer

HSDPA flow control AAL2 low threshold for dedicated VCC

HSDPAFlowControlLowThresholdDedicatedVCCHSDPA flow control

AAL2 low threshold for shared VCC

HSDPAFlowControlLowThresholdSharedVCC

HSDPA flow control AAL2 target delay for dedicated VCC

HSDPAFlowControlTargetDelayDedicatedVCC

HSDPA flow control AAL2 target delay for shared VCC

HSDPAFlowControlTargetDelaySharedVCC

RNTRM N3-REQUESTS N3Requests N3-REQUESTS

RNTRM

RNTRM Change origin RNTRMChangeOrigin

RNTRM RNTRM Identifier RNTRMId

RNTRM SignallingToDSCP

RNTRM T3-RESPONSE T3Response T3-RESPONSE

RNTRM

RNTRM

RNTRM

RNTRM -

RNTRM -

RNTRM ULCACSwitch

RNTRM Used SRB ALC set UsedSRBALCSet

TQM

TQM AfHSDPAQoSPri0

TQM AfHSDPAQoSPri1

TQM AfHSDPAQoSPri10

TQM AfHSDPAQoSPri11

TQM AfHSDPAQoSPri12

TQM AfHSDPAQoSPri13

TQM AfHSDPAQoSPri14

TQM AfHSDPAQoSPri15

TQM AfHSDPAQoSPri2

TQM AfHSDPAQoSPri3

TQM AfHSDPAQoSPri4

TQM AfHSDPAQoSPri5

TQM AfHSDPAQoSPri6

TQM AfHSDPAQoSPri7

TQM AfHSDPAQoSPri8

TQM AfHSDPAQoSPri9

TQM AfHSUPAQoSPri0

TQM AfHSUPAQoSPri1

NRTDCH Flow Control Target Delay

NRTDCHFlowControlTargetDelay

Signalling to DSCP mapping

THP 1 Delay Sensitivity Switch

THP1DelaySensitivitySwitch





ToAWE Offset for overbooked NRT DCH AAL2 connection

ToAWEOffsetForOverbook

ToAWS Offset for overbooked NRT DCH AAL2 connection

ToAWSOffsetForOverbook

Enhanced UL CAC Algorithm Switch

Activity Factor For HSPA Traffic Bearers

AFForHSPATrafficBearers

Activity Factor HSDPA QoSPri0Activity Factor HSDPA QoSPri1Activity Factor HSDPA QoSPri10Activity Factor HSDPA QoSPri11Activity Factor HSDPA QoSPri12Activity Factor HSDPA QoSPri13Activity Factor HSDPA QoSPri14Activity Factor HSDPA QoSPri15Activity Factor HSDPA QoSPri2Activity Factor HSDPA QoSPri3Activity Factor HSDPA QoSPri4Activity Factor HSDPA QoSPri5Activity Factor HSDPA QoSPri6Activity Factor HSDPA QoSPri7Activity Factor HSDPA QoSPri8Activity Factor HSDPA QoSPri9Activity Factor HSUPA QoSPri0Activity Factor HSUPA QoSPri1

TQM AfHSUPAQoSPri10

TQM AfHSUPAQoSPri11

TQM AfHSUPAQoSPri12

TQM AfHSUPAQoSPri13

TQM AfHSUPAQoSPri14

TQM AfHSUPAQoSPri15

TQM AfHSUPAQoSPri2

TQM AfHSUPAQoSPri3

TQM AfHSUPAQoSPri4

TQM AfHSUPAQoSPri5

TQM AfHSUPAQoSPri6

TQM AfHSUPAQoSPri7

TQM AfHSUPAQoSPri8

TQM AfHSUPAQoSPri9

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

Activity Factor HSUPA QoSPri10Activity Factor HSUPA QoSPri11Activity Factor HSUPA QoSPri12Activity Factor HSUPA QoSPri13Activity Factor HSUPA QoSPri14Activity Factor HSUPA QoSPri15Activity Factor HSUPA QoSPri2Activity Factor HSUPA QoSPri3Activity Factor HSUPA QoSPri4Activity Factor HSUPA QoSPri5Activity Factor HSUPA QoSPri6Activity Factor HSUPA QoSPri7Activity Factor HSUPA QoSPri8Activity Factor HSUPA QoSPri9Fallback for DCH QoS Priority 0 Mapping

FallbackForDCHQoSPri0

Fallback for DCH QoS Priority 1 Mapping






























Fallback for HSPA QoS Priority 0 Mapping

FallbackForHSPAQoSPri0



TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM Qos Priority To AAL2PT QosPriToAAL2PT

TQM CSTrafficToAAL2PT

TQM DCHQoSPri0ToAAL2PT

TQM

TQM

TQM

TQM

TQM

TQM






































CS Traffic to AAL2 Path Type mappingDCH QoSPri0 to AAL2 Path Type mappingDCH QoSPri10 to AAL2 Path Type mapping

DCHQoSPri10ToAAL2PT

DCH QoSPri11 to AAL2 Path Type mapping

DCHQoSPri11ToAAL2PT


DCHQoSPri12ToAAL2PT


DCHQoSPri13ToAAL2PT


DCHQoSPri14ToAAL2PT


DCHQoSPri15ToAAL2PT

DCH QoSPri1 to AAL2 Path Type mappingDCH QoSPri2 to AAL2 Path Type mappingDCH QoSPri3 to AAL2 Path Type mappingDCH QoSPri4 to AAL2 Path Type mappingDCH QoSPri5 to AAL2 Path Type mappingDCH QoSPri6 to AAL2 Path Type mappingDCH QoSPri7 to AAL2 Path Type mappingDCH QoSPri8 to AAL2 Path Type mappingDCH QoSPri9 to AAL2 Path Type mapping

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM

TQM SRBToAAL2PT

TQM Qos Priority To DSCP QosPriToDSCP

TQM CSTrafficToDSCP -

TQM DCHQoSPri0ToDSCP -












HSPA QoSPri0 to AAL2 Path Type mapping

HSPAQoSPri0ToAAL2PT


HSPAQoSPri10ToAAL2PT












HSPAQoSPri1ToAAL2PT


HSPAQoSPri2ToAAL2PT


HSPAQoSPri3ToAAL2PT


HSPAQoSPri4ToAAL2PT


HSPAQoSPri5ToAAL2PT


HSPAQoSPri6ToAAL2PT


HSPAQoSPri7ToAAL2PT


HSPAQoSPri8ToAAL2PT


HSPAQoSPri9ToAAL2PT

PCH FACH to AAL2 Path Type mapping

PchFachRachToAAL2PT

SRB to AAL2 Path Type mapping

CS Traffic to DSCP mappingDCH QoSPri0 to DSCP mappingDCH QoSPri10 to DSCP mappingDCH QoSPri11 to DSCP mappingDCH QoSPri12 to DSCP mappingDCH QoSPri13 to DSCP mappingDCH QoSPri14 to DSCP mappingDCH QoSPri15 to DSCP mappingDCH QoSPri1 to DSCP mappingDCH QoSPri2 to DSCP mappingDCH QoSPri3 to DSCP mappingDCH QoSPri4 to DSCP mappingDCH QoSPri5 to DSCP mapping





TQM HSPAQoSPri0ToDSCP -
















TQM PchFachRachToDSCP -

TQM SRB to DSCP mapping SRBToDSCP -

TQM TQM Change origin TQMChangeOrigin

TQM TQM object identifier TQMId

VBTS ControllerIdPair

VBTS IHSPAadapterId

VBTS Serving RNC Identifier ServingRNCId

VBTS Report Periodicity



VBTS HARQ RV Configuration HARQRVConfiguration

VBTS MeasFiltCoeff

DCH QoSPri6 to DSCP mappingDCH QoSPri7 to DSCP mappingDCH QoSPri8 to DSCP mappingDCH QoSPri9 to DSCP mappingHSPA QoSPri0 to DSCP mappingHSPA QoSPri10 to DSCP mappingHSPA QoSPri11 to DSCP mappingHSPA QoSPri12 to DSCP mappingHSPA QoSPri13 to DSCP mappingHSPA QoSPri14 to DSCP mappingHSPA QoSPri15 to DSCP mappingHSPA QoSPri1 to DSCP mappingHSPA QoSPri2 to DSCP mappingHSPA QoSPri3 to DSCP mappingHSPA QoSPri4 to DSCP mappingHSPA QoSPri5 to DSCP mappingHSPA QoSPri6 to DSCP mappingHSPA QoSPri7 to DSCP mappingHSPA QoSPri8 to DSCP mappingHSPA QoSPri9 to DSCP mappingPCH FACH RACH to DSCP mapping

Neighbouring IBTS Identifier and Its SRNC IdentifierI-HSPA Adapter Identifier

Dedicated Measurement Reporting Period CS data

DediMeasRepPeriodCSdata

Dedicated Measurement Reporting Period PS data

DediMeasRepPeriodPSdata

Dedicated Measurement Reporting Period

DedicatedMeasReportPeriod

Measurement filter coefficient


VBTS

VBTS Change Origin VBTSChangeOrigin

VBTS VBTS Identifier VBTSId

VCEL CSAMRModeSET

VCEL CSAMRModeSETWB

VCEL

VCEL EbNoSetIdentifier

VCEL

VCEL

VCEL HSDPA FMCG identifier HSDPAFmcgIdentifier

VCEL HSDPA FMCI identifier HSDPAFmciIdentifier

VCEL HSDPA FMCS identifier HSDPAFmcsIdentifier

VCEL HSDPA HOPS identifier HSDPAHopsIdentifier

VCEL HSDPAMaxBitrateUL

VCEL HSDPA enabled HSDPAenabled

VCEL HSPA FMCS identifier HSPAFmcsIdentifier

VCEL HSUPA enabled HSUPAEnabled

VCEL Initial bit rate in downlink InitialBitRateDL

VCEL Initial bit rate in uplink InitialBitRateUL

VCEL Location area code LAC

VCEL MaxBitRateDLPSNRT

VCEL MaxBitRateULPSNRT

VCEL

VCEL MinAllowedBitRateDL

VCEL MinAllowedBitRateUL

VCEL NRT FMCG Identifier NrtFmcgIdentifier

VCEL NRT FMCI Identifier NrtFmciIdentifier

VCEL NRT FMCS Identifier NrtFmcsIdentifier

VCEL NRT HOPG Identifier NrtHopgIdentifier

VCEL NRT HOPI Identifier NrtHopiIdentifier

VCEL NRT HOPS Identifier NrtHopsIdentifier

VCEL PtxOffsetHSSCCH HS-SCCH Power Offset

NodeB PS RAB reconfiguration Support

NodeBRABReconfigSupport

Configured CS AMR mode setsConfigured CS WAMR mode setsE-DCH minimum set E-TFCI

EDCHMinimumSetETFCI

E-DCH Minimum Set E-TFCI

Eb/No parameter set identifierMaximum allowed DL user bit rate in HHO

HHoMaxAllowedBitrateDL

Maximum allowed UL user bit rate in HHO

HHoMaxAllowedBitrateUL

Maximum bit rate for HSDPA UL DCH return channel

Location Area Code; LAC

Maximum downlink bit rate for PS domain NRT dataMaximum uplink bit rate for PS domain NRT dataMaximum total uplink symbol rate

MaxTotalUplinkSymbolRate

Minimum allowed bit rate in downlinkMinimum allowed bit rate in uplink

The power offset of the HS-SCCH

VCEL Routing Area Code RAC

VCEL

VCEL

VCEL

VCEL

VCEL

VCEL Relocation Commit

VCEL RT FMCG Identifier RtFmcgIdentifier

VCEL RT FMCI Identifier RtFmciIdentifier

VCEL RT FMCS Identifier RtFmcsIdentifier

VCEL RT HOPG Identifier RtHopgIdentifier

VCEL RT HOPI Identifier RtHopiIdentifier

VCEL RT HOPS Identifier RtHopsIdentifier

VCEL Rx Diversity Indicator RxDivIndicator

VCEL Change Origin VCELChangeOrigin

VCEL VCEL Identifier VCELId

WANE AuthorisedNetworkId

WANE PLMN identity

WANE AuthorisedNetworkMCC

WANE AuthorisedNetworkMNC

WANE

WANE Technology

WANE Change origin WANEChangeOrigin

WANE WANE Name WANEName

WBTS ATM interface identifier ATMInterfaceID

WBTS Admin WBTS State AdminWBTSState

WBTS BTSAdditionalInfo

WBTS BTS Fallback enabled BTSFallbackEnabled

WBTS BTS O&M IP address BTSIPAddress

WBTS

WBTS

WBTS BlindTFdetectionUsage

HSDPA FMCG identifier for AMR multi-service

RTWithHSDPAFmcgIdentifier

HSPA FMCS identifier for AMR multi-service

RTWithHSPAFmcsIdentifier

HSDPA FMCI identifier for AMR multi-service

RTwithHSDPAFmciIdentifier

HSDPA FMCS identifier for AMR multi-service

RTwithHSDPAFmcsIdentifier


RTwithHSDPAHopsIdentifier

Usage of Relocation Commit procedure in inter RNC HHO

RelocComm_in_InterRNC_HHO

Authorised Network IdentifierAuthorised Network PLMN

AuthorisedNetworkPLMN

Authorised Network Mobile Country CodeAuthorised Network Mobile Network CodeAuthorised Network Mobile Network Code Length

AuthorisedNetworkMNClength

Technology used in the Authorised Network

BTS Additional Information

BTS Support For HSPA CM

BTSSupportForHSPACM

Blind HO Intra BTS Quality Check

BlindHOIntraBTSQCheck

Blind transport format detection capability of BTS

WBTS Broadcast SIB15 BroadcastSIB15

WBTS Broadcast SIB15.2 BroadcastSIB15_2

WBTS Broadcast SIB15.3 BroadcastSIB15_3

WBTS COCOId

WBTS DCHnumberRL

WBTS O&M DCN link status DCNLinkStatus

WBTS DCNSecurityStatus

WBTS -

WBTS DSCP high priority DSCPHigh

WBTS DSCP Low priority DSCPLow

WBTS DSCPMedDCH

WBTS DSCPMedHSPA

WBTS Report Periodicity



WBTS DelayThresholdMax

WBTS

WBTS DelayThresholdMid

WBTS

WBTS DelayThresholdMin

WBTS

WBTS HARQ RV Configuration HARQRVConfiguration -

WBTS HSDPA14MbpsPerUser HSDPA14MbpsPerUser

WBTS HSDPACCEnabled -

WBTS HSDPA Iur Weight HSDPAIurWeight

WBTS

WBTS HSDPAOperatorId

WBTS HSDPA Operator Weight HSDPAOperatorWeight

WBTS HSDPAULCToDSCP

WBTS HSDPA User Hysterisis HSDPAUserHysterisis

WBTS HSDPA User Threshold HSDPAUserThreshold

WBTS HSUPADLCToDSCP

Connection Configuration IdentifierNumber of DCHs per RL capability of BTS

O&M DCN secure link statusTx power of radio link averaging window size for DLO

DLORLAveragingWindowSize

DSCP medium priority DCHDSCP Medium priority HSPADedicated Measurement Reporting Period CS data

DediMeasRepPeriodCSdata

Dedicated Measurement Reporting Period PS data

DediMeasRepPeriodPSdata

Dedicated Measurement Reporting Period

DedicatedMeasReportPeriod

Maximum Threshold for HSUPA congestion handling delayMaximum Threshold for HSUPA congestion delay 2msTTI

DelayThresholdMax2msTTI

Middle Threshold value for HSUPA congestion delayMiddle Threshold for HSUPA congestion delay 2msTTI

DelayThresholdMid2msTTI

Minimum Threshold value for HSUPA congestion - delayMinimum Threshold for HSUPA congestion delay 2msTTI

DelayThresholdMin2msTTI

HSDPA Congestion Control activation

HSDPA Operator Identifier Weight Pair

HSDPAOperIdWeightPair

HSDPA Operator Identifier

HSDPA UL FP Control traffic to DSCP mapping

HSUPA DL FP Control traffic to DSCP mapping

WBTS HSUPA x users enabled HSUPAXUsersEnabled -

WBTS ICR Enabled ICREnabled

WBTS IP Based Route Id Iub IPBasedRouteIdIub

WBTS IP Based Route Id Iub 2 IPBasedRouteIdIub2

WBTS IPNB object identifier IPNBId

WBTS InactCACThresholdATM

WBTS InactCACThresholdIP

WBTS InactUsersCIDThreshold

WBTS IntelligentSDPrioHO

WBTS IubTransportFallback

WBTS IubTransportMedia

WBTS PS load control period LoadControlPeriodPS

WBTS MDC Buffering Time MDCBufferingTime

WBTS Max DL user rate per RL MaxDCHuserRateRLDL

WBTS Max UL user rate per RL MaxDCHuserRateRLUL

WBTS MaxNumberEDCHLCG -

WBTS MeasFiltCoeff

WBTS MinUDPPortIub

WBTS NBAPCommMode

WBTS NE-SW-Version NESWVersion

WBTS NE-type NEType

WBTS

WBTS

WBTS Overbooking Switch OverbookingSwitch

WBTS

WBTS

WBTS -

WBTS PWSMInUse

WBTS

WBTS

WBTS

WBTS

Inactive users CAC Threshold for ATMInactive users CAC Threshold for IPInactive users Connection ID ThresholdPriorized Handover Type in Intelligent ShutdownIub Transport Fallback MappingIub Transport Media Selection

Maximum number of E-DCHs in the local cell groupMeasurement filter coefficient


Minimum UDP port value for the IubNBAP Communication Mode

Number of overbooked HSDPA users

NbrOfOverbookedHSDPAUsers

NodeB PS RAB reconfiguration Support

NodeBRABReconfigSupport

Usage of RLC PDU size 656 with HS-DSCH

PDUSize656WithHSDSCH

Load measurement averaging window size for packet scheduling

PSAveragingWindowSize

Tx power of radio link averaging window size for PS

PSRLAveragingWindowSize

The PWSM usage in BTSPWSM Shutdown Time Begin Hour for remaining cell

PWSMRemCellSDBeginHour

PWSM Shutdown Time Begin Minute for remaining cell

PWSMRemCellSDBeginMin

PWSM Shutdown Time End Hour for remaining cell

PWSMRemCellSDEndHour

PWSM Shutdown Time End Minute for remaining cell

PWSMRemCellSDEndMin

WBTS

WBTS

WBTS

WBTS PWSMShutdownEndMin

WBTS Weekend for shutdown PWSMWeekday

WBTS ProbabilityFactorMax

WBTS

WBTS PrxAlpha

WBTS PrxMeasAveWindow

WBTS

WBTS PtxAlpha

WBTS PtxDPCHmax

WBTS PtxDPCHmin

WBTS PtxMeasAveWindow

WBTS R99OperIdWeightPair

WBTS R99 Operator Identifier R99OperatorId

WBTS R99 Operator Weight R99OperatorWeight

WBTS

WBTS RF Sharing State RFSharingState

WBTS RRIndPeriod

WBTS

WBTS

WBTS

WBTS

WBTS

WBTS

WBTS

WBTS

WBTS

WBTS

WBTS

WBTS Satellite Iub Usage SatelliteIubUsage

Hour when the cell shutdown window starts

PWSMShutdownBeginHour

Minute when the cell shutdown window starts

PWSMShutdownBeginMin

Hour when the cell shutdown window ends

PWSMShutdownEndHour

Minute when the cell shutdown window ends

ProbabilityFactor for Congestion Indication sendingProbabilityFactor for Congestion Indication sending

ProbabilityFactorMax2msTTI

Type of measurement filter for uplink total received powerNumber of frames to be used averaging in PrxTotal measurementPS target tune period in HSPA-DCH interference sharing

PrxTargetPSAdjustPeriod

Type of measurement filter for downlink total transmitted powerDPCH downlink transmission power maximum valueDPCH downlink transmission power minimum valueNumber of frames to be used averaging in PtxTotal measurementR99 Operator Identifier Weight Pair

RACH load indication period

RACHloadIndicationPeriod

Radio Resource Indication PeriodAverage UL DCH data rates for the radio bearers

RRMULDCHActivityFactor

Average UL DCH data rate for RBs of CS AMR

RRMULDCHActivityFactorCSAMR

Average UL DCH data rate for RB of CS NT-data

RRMULDCHActivityFactorCSNTData

Average UL DCH data rate for RB of CS T-data

RRMULDCHActivityFactorCSTData

Average UL DCH data rate for RB of PS background RAB

RRMULDCHActivityFactorPSBackgr

Average UL DCH data rate for RB of PS Streaming RAB

RRMULDCHActivityFactorPSStream

Average UL DCH data rate for RB of PS THP1 RAB

RRMULDCHActivityFactorPSTHP1





Average UL DCH data rate for SRB

RRMULDCHActivityFactorSRB

Release timer for shared HSDPA allocation

ReleaseTimerForSharedHSDPAallocation

WBTS Scheduling period SchedulingPeriod

WBTS

WBTS SharedHSDPAallocation

WBTS TQM object identifier TQMId

WBTS TargetId

WBTS

WBTS ToAWEOffsetRTDCHIP

WBTS

WBTS ToAWSOffsetRTDCHIP

WBTS Virtual Channel Identifier VCI

WBTS Virtual Path Identifier VPI

WBTS Change origin WBTSChangeOrigin

WBTS WBTS Identifier WBTSId nodeBFunctionId

WBTS WCDMA BTS name WBTSName

WBTS WinACRABsetupDL

WBTS WinACRABsetupUL

WBTS WinLCHSDPA

WBTS WinLCHSUPA

WCEL Access Class Barred list ACBarredList Access Class Barred list

WCEL AICHTraTime

WCEL AMROverSC AMROverSC

WCEL AMROverTransmission AMROverTransmission

WCEL AMROverTxNC AMROverTxNC

WCEL AMROverTxNonHSPA AMROverTxNonHSPA

WCEL AMROverTxTotal AMROverTxTotal

WCEL AMRSF AMRSF

WCEL AMRTargetSC AMRTargetSC

WCEL AMRTargetTransmission AMRTargetTransmission

WCEL AMRTargetTxNC AMRTargetTxNC

WCEL AMRTargetTxNonHSPA AMRTargetTxNonHSPA

WCEL AMRTargetTxTotal AMRTargetTxTotal

WCEL AMRUnderSC AMRUnderSC

Shared HSDPA AAL2 VCC selection method

SharedHSDPAVCCSelectionMethod

Shared HSDPA AAL2 allocation

Network Element Target IdentifierToAWE Offset for NRT DCH connections over IP

ToAWEOffsetNRTDCHIP

ToAWE Offset for RT DCH connections over IPToAWS Offset for NRT DCH connections over IP

ToAWSOffsetNRTDCHIP

ToAWS Offset for RT DCH connections over IP

DL measurement averaging window for ACUL measurement averaging window for ACPtxnonHSPA averaging window size for LCNon E-DCH ST interference averaging window size for LC

AICH Transmission Timing

AICH Transmission Timing

WCEL AMRUnderTransmission AMRUnderTransmission

WCEL AMRUnderTxNC AMRUnderTxNC

WCEL AMRUnderTxNonHSPA AMRUnderTxNonHSPA

WCEL AMRUnderTxTotal AMRUnderTxTotal

WCEL AbsPrioCellReselec priority

WCEL Administrative Cell State AdminCellState Administrative state

WCEL Admin PIC state AdminPICState

WCEL

WCEL RACH sub-channels

WCEL AltScramblingCodeCM Scrambling code change

WCEL AssignedPICPool

WCEL BlindHOEcNoThrTarget

WCEL BlindHORSCPThrTarget

WCEL CCHSetupEnabled

WCEL CIRForFDPCH -

WCEL Cell identifier CId Cell identifier; C-ID

WCEL CPC enabled CPCEnabled -

WCEL -

WCEL

WCEL CPICHtoRefRABoffset

WCEL CSAMRModeSET

WCEL CSAMRModeSETWB

WCEL CSGroupId

WCEL CTCHCapaHighPri

WCEL CUCEcNoThreshold

WCEL CUCRSCPThreshold

WCEL Cable Loss CableLoss

WCEL CellAdditionalInfo

WCEL Cell Barred CellBarred Cell Barred

WCEL Cell range CellRange

WCEL CellSelQualMeas

WCEL

Absolute priority level for cell reselection

Allowed preamble signatures

AllowedPreambleSignatures

PRACH preamble signatures

Allowed RACH subchannels

AllowedRACHSubChannels

Compressed Mode: Alternative scrambling codeCell assigned to PIC poolBlind HO EcNo threshold for target cell

Inter-frequency RACH reporting threshold

Blind HO RSCP threshold for target cell

Inter-frequency RACH reporting threshold

RRC Connection Setup on CCH EnabledCarrier to interference ratio for F-DPCH

CPICH Ec/No thr for SRB mapping in RRC setup

CPICHEcNoSRBMapRRC

CPICH RSCP thr for SRB mapping in RRC setup

CPICHRSCPSRBMapRRC

Offset of the P-CPICH and reference service powersConfigured CS AMR mode setsConfigured CS WAMR mode setsRestriction Group Id for Circuit Switched AccesCTCH capacity for High Priority CBS messagesCPICH Ec/No Threshold Value For CUC UsageCPICH RSCP Threshold Value For CUC Usage

Cell Additional Information

Measurement to be used as quality measure

Cell selection and reselection quality measureCell weight for HSDPA

layeringCellWeightForHSDPALayering

WCEL Cell_Reserved

WCEL CodeTreeOptTimer

WCEL Code tree optimisation CodeTreeOptimisation

WCEL Code Tree Usage CodeTreeUsage

WCEL DCellAndMIMOUsage

WCEL DCellHSDPACapaHO

WCEL DC HSDPA Enabled DCellHSDPAEnabled

WCEL DCellHSDPAFmcsId

WCEL DLLoadStateTTT

WCEL

WCEL

WCEL Prx Margin for DRRC DRRCprxMargin

WCEL Prx Offset for DRRC DRRCprxOffset

WCEL Ptx Margin for DRRC DRRCptxMargin

WCEL Ptx Offset for DRRC DRRCptxOffset

WCEL DeltaPrxMaxDown

WCEL DeltaPrxMaxUp

WCEL DeltaPtxMaxDown

WCEL DeltaPtxMaxUp

WCEL DirectedRRCEnabled

WCEL -

WCEL E-DCH Capability EDCHCapability E-DCH Capability

WCEL EDCHMinSetETFCIT0

WCEL

WCEL Operational E-DCH state EDCHOpState

WCEL EVAM capability EVAMCapability

WCEL EVAM in use EVAMInUse

WCEL EbNoSetIdentifier

WCEL Initial phase offset EvamDInit

WCEL Phase offset amount EvamNumPhaseOffset

WCEL Keep time EvamTKeep

WCEL Sweep time EvamTSweep

Cell Reserved for operator use

Cell Reserved for operator use

Code tree optimisation timer

DC-HSDPA and MIMO UsageDC HSDPA Capability HO

DC HSDPA FMCS IdentifierDL loaded state time to triggerNRT DPCH over HS-PDSCH code offset

DPCHOverHSPDSCHThreshold

DPC Mode Change Support

DPCModeChangeSupport

Maximum uplink power decrease in packet schedulingMaximum uplink power increase in packet schedulingMaximum downlink power decrease in packet schedulingMaximum downlink power increase in packet schedulingDirected RRC connection setup enabledDirected RRC connection setup for HSDPA layer enabled

DirectedRRCForHSDPALayerEnabled

E-DCH minimum set E-TFCI 10 ms TTI table 0

RRC and NBAP: E-DCH Minimum Set E-TFCI

E-DCH minimum set E-TFCI 10 ms TTI table 1

EDCHMinimumSetETFCI

RRC and NBAP: E-DCH Minimum Set E-TFCIE-DCH Resources Information - Res. Oper. State

Eb/No parameter set identifier

WCEL -

WCEL F-DPCH enabled FDPCHEnabled -

WCEL F-DPCH setup FDPCHSetup -

WCEL FachLoadMarginCCH

WCEL FachLoadThresholdCCH

WCEL HCS_PRIO HCS_PRIO

WCEL

WCEL

WCEL

WCEL HSCapabilityHOPeriod

WCEL HSDPA 64 QAM allowed HSDPA64QAMallowed

WCEL HSDPA64UsersEnabled -

WCEL HSDPA FMCG identifier HSDPAFmcgIdentifier

WCEL HSDPA FMCI identifier HSDPAFmciIdentifier

WCEL HSDPA FMCS identifier HSDPAFmcsIdentifier

WCEL -

WCEL HSDPAMPO

WCEL HSDPAMaxBitrateUL

WCEL HSDPA Capability HSDPAcapability HSDPA Capability

WCEL HSDPA enabled HSDPAenabled

WCEL HSDSCHOpState

WCEL -

WCEL HSFACHActivityAveWin

WCEL HSFACHActivityThr

WCEL HSFACHEnabled -

WCEL -

WCEL

WCEL HSFACHVolThrDL -

WCEL

WCEL HSLoadStateHSDOffset

WCEL

WCEL HSLoadStateHSUOffset

F-DPCH code change enabled

FDPCHCodeChangeEnabled

Margin for FACH load for downlink channel type selectionThreshold for FACH load for downlink channel type selectionHCS priority level for a cellMaximum allowed DL user bit rate in HHO

HHoMaxAllowedBitrateDL

Maximum allowed UL user bit rate in HHO

HHoMaxAllowedBitrateUL

HSPA Capability Based Handover Max Number of UE

HSCapabilityHONumbUE

HSPA Capability Based Handover Period

HSDPA 64 users enabled

HSDPA layering for UEs in common channels enabled

HSDPALayeringCommonChEnabled

HSDPA Measurement Power Offset

Measurement Power Offset IE

Maximum bit rate for HSDPA UL DCH return channel

Operational HS-DSCH state

HS-DSCH Resources Information

Time to trigger for activity measurement on HS-FACH

HSFACHActTimeToTrigger

Window size of HS-DSCH MAC-d flow of PS RB on HS-FACHThreshold of the HS-DSCH MAC-d flow of PS RB on HS-FACHHigh Speed Cell_FACH DL EnabledTime to trigger for RLC measurement on HS-FACH

HSFACHRLCTimeToTrigger

HSFACH Rel7UE EstCause mapping in RRC con setup

HSFACHRel7ConSetupEC

DL traffic volume measurement threshold of HS-FACHHSPA load state HSDPA bit rate limit

HSLoadStateHSDBRLimit

HSPA load state HSDPA power OffsetHSPA load state E-DCH bit rate limit

HSLoadStateHSUBRLimit

HSPA load state HSUPA power Offset

WCEL

WCEL HSPA 72 Users per Cell HSPA72UsersPerCell

WCEL HSPACapaHO -

WCEL HSPA FMCS identifier HSPAFmcsIdentifier

WCEL HSPA QoS enabled HSPAQoSEnabled

WCEL HS-PDSCH code set HSPDSCHCodeSet

WCEL HSPDSCHMarginSF128

WCEL HSUPA16QAMAllowed

WCEL HSUPA2MSTTIEnabled

WCEL HSUPA enabled HSUPAEnabled -

WCEL HSUPAUserLimit16QAM

WCEL

WCEL ICR Capability ICRCapability

WCEL IncomingLTEISHO

WCEL Initial bit rate in downlink InitialBitRateDL

WCEL Initial bit rate in uplink InitialBitRateUL

WCEL InterFreqScaleTresel

WCEL InterRATScaleTresel

WCEL

WCEL CBS frame offset (K) KforCTCH CBS frame offset (K)

WCEL Location area code LAC

WCEL

WCEL

WCEL

WCEL

WCEL

WCEL

WCEL

WCEL LHOHardBlockingRatio

WCEL

WCEL

WCEL

HSPA Load State HSUPA Resource Threshold

HSLoadStateHSUResThr

HSPA Capability Based Handover

HS-PDSCH code upgrade margin for SF128 codesHSUPA 16QAM usage allowed in a cellHSUPA 2 ms TTI enabled

HSUPA user limit for 16QAM usageHSPA multi NRT RAB Support

HspaMultiNrtRabSupport

Incoming ISHO from LTE

Scaling factor of Treselection in inter-frequency case

Inter-frequency ScalingFactor for TreselectionScaling factor of

Treselection in inter-RAT case

Inter-RAT ScalingFactor for Treselection

Intra-frequency cell re-selection indicator

IntraFreq_Cell_Reselect_Ind

Intra-frequency cell re-selection indicator

Location Area Code; LAC

Load HO DL NRT capacity request rejection rate

LHOCapaReqRejRateDL

Load HO UL NRT capacity request rejection rate

LHOCapaReqRejRateUL

Delay to broadcast NRT load based HO state over

LHODelayOFFCapaReqRejRate

Delay to broadcast hard blocking load based HO state over

LHODelayOFFHardBlocking

Delay to broadcast interference load based HO state over

LHODelayOFFInterference

Delay to broadcast DL SC load based HO state over

LHODelayOFFResRateSC

Load HO hard blocking base load

LHOHardBlockingBaseLoad

Load HO hard blocking ratioHysteresis for NRT load measurement of LHO

LHOHystTimeCapaReqRejRate

Hysteresis for hard blocking measurement of LHO

LHOHystTimeHardBlocking

Hysteresis for interference measurement of LHO

LHOHystTimeInterference

WCEL

WCEL

WCEL LHONumbUEInterFreq

WCEL LHONumbUEInterRAT

WCEL LHOPwrOffsetDL

WCEL LHOPwrOffsetUL

WCEL LHOResRateSC

WCEL

WCEL

WCEL

WCEL

WCEL

WCEL

WCEL

WCEL

WCEL LTE Cell Reselection LTECellReselection

WCEL LcrId Local Cell Identifier

WCEL

WCEL

WCEL MBLBInactivityEnabled

WCEL MBLBMobilityEnabled

WCEL

WCEL

WCEL

WCEL MHA used MHA

WCEL MIMO Enabled MIMOEnabled

WCEL MIMOHSDPACapaHO

WCEL MIMOWith64QAMUsage

WCEL MaxBitRateDLPSNRT

WCEL MaxBitRateULPSNRT

WCEL Max Code Releases MaxCodeReleases

WCEL MaxDLPowerCapability

Hysteresis for DL SC measurement of LHO

LHOHystTimeResRateSC

Load HO NRT traffic base load

LHONRTTrafficBaseLoad

Number of UEs in inter-frequency load HO Number of UEs in inter-RAT load HO Load HO DL power offsetLoad HO UL power offsetLoad HO reservation rate of DL spreading codesWindow size for NRT load measurement to stop LHOs

LHOWinSizeOFFCapaReqRejRate

Window size for hard blocking measurement to stop LHOs

LHOWinSizeOFFHardBlocking

Window size for interference measurement to stop LHOs

LHOWinSizeOFFInterference

Window size for DL SC reservation rate measurement to stop LHOs

LHOWinSizeOFFResRateSC

Window size for NRT load measurement to start LHOs

LHOWinSizeONCapaReqRejRate

Window size for hard blocking measurement to start LHOs

LHOWinSizeONHardBlocking

Window size for interference measurement to start LHOs

LHOWinSizeONInterference

Window size for DL SC reservation rate measurement to start LHOs

LHOWinSizeONResRateSC

Local cell resource identifierLoad Based CPICH EcNo for SRB on HSPA

LoadBasedCPICHEcNoSRBHSPA

Load Based CPICH EcNo Threshold for E-DCH TTI 2 ms

LoadBasedCPICHEcNoThreEDCH2MS

MBLB in Inactivity EnabledMBLB in Mobility EnabledMBLB in RAB Setup Enabled

MBLBRABSetupEnabled

MBLB in RAB Setup for Multi RAB

MBLBRABSetupMultiRAB

MBLB in State Transition Enabled

MBLBStateTransEnabled

MIMO HSDPA Capability HandoverMIMO with 64QAM usageMaximum downlink bit rate for PS domain NRT dataMaximum uplink bit rate for PS domain NRT data

Maximum DL Power Capability

Maximum DL Power Capability

WCEL MaxIncrInterferenceUL

WCEL

WCEL -

WCEL -

WCEL MaxNumberEDCHCell -

WCEL

WCEL

WCEL MaxNumberUECmHO

WCEL

WCEL

WCEL

WCEL -

WCEL MinAllowedBitRateDL

WCEL MinAllowedBitRateUL

WCEL

WCEL N300 N300 N300

WCEL N312 N312 N312

WCEL N312Conn N312

WCEL N313 N313 N313

WCEL N315 N315 N315

WCEL NASsignVolThrDL

WCEL NASsignVolThrUL

WCEL NCr NCr

WCEL Number of SCCPCHs NbrOfSCCPCHs

WCEL NforCTCH

WCEL NonHCSNcr Non-HCS_NCR

WCEL NonHCSTcrMax Non-HCS_TCRmax

WCEL NonHCSTcrMaxHyst Non-HCS_TCRmaxHyst

WCEL

WCEL NRT FMCG Identifier NrtFmcgIdentifier

WCEL NRT FMCI Identifier NrtFmciIdentifier

WCEL NRT FMCS Identifier NrtFmcsIdentifier

Max increment in the received wide band interferenceMaximum number of HS-SCCH codes

MaxNbrOfHSSCCHCodes

Max number HSDPA users per MAChs/ehs scheduler

MaxNumbHSDPAUsersS

Max number HSDSCH MACd flows per MAChs/ehs scheduler

MaxNumbHSDSCHMACdFS

Maximum number of E-DCHs in the cellMaximum number of HSDPA users

MaxNumberHSDPAUsers

Maximum number of HS-DSCH MAC-d flows

MaxNumberHSDSCHMACdFlows

Maximum number of UEs in CM due to critical HO measurement Maximum number of UEs in CM due to SLHO measurement

MaxNumberUECmSLHO

Max number of UEs in HSDPA CM due to critical HO

MaxNumberUEHSPACmHO

Max number of UEs in HSDPA CM due to NCHO

MaxNumberUEHSPACmNCHO

Maximum total uplink symbol rate

MaxTotalUplinkSymbolRate

Minimum allowed bit rate in downlinkMinimum allowed bit rate in uplinkMultiple PLMN List Included

MultiplePLMNListIncluded

N312 for connected mode

Downlink NAS signalling volume thresholdUplink NAS signalling volume thresholdMaximum number of cell reselections

Period of CTCH allocation (N)

Period of CTCH allocation (N)

Maximum number of cell reselections in non-HCS caseEvaluating period for amount of reselections in non-HCSHysteresis to revert from UE measurement in non-HCSEvent E measurement of non HS transmitted carrier power

NonHSEventECommMeas

WCEL -

WCEL

WCEL

WCEL

WCEL

WCEL

WCEL

WCEL PCH24kbpsEnabled

WCEL PFL Identifier PFLIdentifier

WCEL PIC state PICState

WCEL Number of PI per frame PI_amount Number of PI per frame

WCEL PRACHDelayRange

WCEL Constant value

WCEL PRACH scrambling code PRACHScramblingCode

WCEL Preamble Retrans Max

WCEL PSGroupId

WCEL PTxPICH PICH Power offset

WCEL -

WCEL

WCEL PWSMAVLimitRTDCH

WCEL

WCEL

WCEL PWSMAVPwrRTHSDPA

WCEL PWSMCellGroup

WCEL Power limit for virtual AC PWSMEXPwrLimit

WCEL User limit for virtual AC PWSMEXUsrLimit

WCEL -

WCEL PWSMSDLimitNRTDCH

WCEL

WCEL PWSMSDLimitRTDCH

WCEL

WCEL

Number of E-DCHs reserved for SHO branch additions

NumberEDCHReservedSHOBranchAdditions

DCH time limit for UL NRT DCH overload in E-DCH cell

OCULNRTDCHGrantedMinAllocT

Threshold for DL NRT DCH allocation time in enhanced overload control

OCdlNrtDCHgrantedMinAllocT

PBS granted min DCH allocation time

PBSgrantedMinDCHallocT

PBS granted min DCH allocation time equal priority

PBSgrantedMinDCHallocTequalP

PBS granted min DCH allocation time higher priority

PBSgrantedMinDCHallocThigherP

PBS granted min DCH allocation time lower priority

PBSgrantedMinDCHallocTlowerP

Activate \ Deactivate support for 24kbps PCH

PRACH Propagation Delay Statistics Cell RangeRequired received C/I on PRACH at WCDMA BTS

PRACHRequiredReceivedCI

Preamble scrambling code number

PRACH Preamble Retrans Max

PRACH_preamble_retrans

Restriction Group Id for Packet Switched AccesTransmission power of the PICH channelLimit for DC HSDPA users in activation

PWSMAVLimitDCHSDPA

Limit for NRT HSDPAs for Cell Activation Decision

PWSMAVLimitNRTHSDPA

RT DCH power limit for activationLimit for RT HSDPAs for Cell Activation Decision

PWSMAVLimitRTHSDPA

NRT HSDPA power per user limit

PWSMAVPwrNRTHSDPA

RT HSDPA power limit for activationThe PWSM cell group of a cell.

Limit for DC HSDPA users in shutdown

PWSMSDLimitDCHSDPA

NRT DCH limit for shutdownLimit for NRT HSDPAs for Cell Shutdown Decision

PWSMSDLimitNRTHSDPA

RT DCH limit for shutdownLimit for RT HSDPAs for Cell Shutdown Decision

PWSMSDLimitRTHSDPA

NRT HSDPA power per user margin

PWSMSDPwrNRTHSDPA

WCEL PWSMSDPwrRTDCH

WCEL PWSMSDPwrRTHSDPA

WCEL PWSMShutdownOrder

WCEL

WCEL Power offset P p-m

WCEL

WCEL PO1_15

WCEL PO1_30

WCEL PO1_60

WCEL

WCEL PowerSaveHSPAType

WCEL PriScrCode Primary scrambling code

WCEL PrxLoadMarginDCH

WCEL PrxLoadMarginEDCH

WCEL PrxLoadMarginMaxDCH

WCEL PrxMaxOrigTargetBTS

WCEL PrxMaxTargetBTS

WCEL PrxMeasFilterCoeff

WCEL Uplink noise level PrxNoise

WCEL PrxNoiseAutotuning

WCEL PrxOffset

WCEL PrxOffsetWPS

WCEL PrxTarget

WCEL PrxTargetMax

WCEL PrxTargetPSMax

WCEL PrxTargetPSMin

WCEL PrxTargetPSStepDown

WCEL PrxTargetPSStepUp

WCEL PrxTotalReportPeriod Report Periodicity

WCEL PtxAICH AICH Power offset

WCEL PtxBCCHHSPDSCH HS-PDSCH Power

WCEL PtxBCCHHSSCCH HS-SCCH Power

RT DCH Power limit for shutdownRT HSDPA power limit for shutdownThe shutdown order of cells in one PWSM cell groupShutdown of a remaining cell

PWSMShutdownRemCell

Power offset last preamble and PRACH message

PowerOffsetLastPreamblePRACHmessage

Power offset for S-CCPCH TFCI

PowerOffsetSCCPCHTFCI

PO1 or Power offset for the TFCI bits

Power offset for SCCPCH TFCI (15 ksps)






Power ramp step on PRACH preamble

PowerRampStepPRACHpreamble

Power Ramp Step; power-ramping factor

HSPA Type of Cell in Power Saving ModePrimary downlink scrambling codeInterference margin for the minimum UL DCH loadInterference margin for the minimum E-DCH loadInterference margin for the maximum UL DCH loadMax target received wide band original power for BTSMaximum target received wide band power for BTS

Maximum Target Received Total Wide Band PowerFiltering Coefficient of

PrxTotal measurementMeasurement Filter CoefficientNBAP: Reference Received Total Wide Band Power PrxNoise autotuning

allowedOffset for received powerOffset for received Wireless Priority Service powerTarget for received powerMaximum target for the received total wideband powerMax PS target in HSPA-DCH interference sharingMin PS target in HSPA-DCH interference sharingPS target step down in HSPA-DCH interference sharingPS target step up in HSPA-DCH interference sharingReporting period for the RTWP measurementsTransmission power of the AICH channelHS-PDSCH Power of HS-FACH for BCCHHS-SCCH Power of HS-FACH for BCCH

WCEL PtxCellMax

WCEL PtxDLabsMax

WCEL PtxFDPCHMax Maximum DL Power

WCEL PtxFDPCHMin Minimum DL Power

WCEL PtxHighHSDPAPwr

WCEL PtxMarginCCH

WCEL PtxMaxEHICH E-HICH Power Offset

WCEL PtxMaxHSDPA

WCEL PtxMeasFilterCoeff

WCEL PtxOffset

WCEL PtxOffsetEAGCH E-AGCH Power Offset

WCEL E-AGCH Power Offset

WCEL PtxOffsetEHICHDPCCH E-HICH Power Offset

WCEL PtxOffsetERGCH E-RGCH Power Offset

WCEL E-RGCH Power Offset

WCEL PtxOffsetExxCH2ms -

WCEL PtxOffsetExxCHSHO -

WCEL PtxOffsetFDPCHSHO -

WCEL PtxOffsetHSDPA

WCEL PtxOffsetHSSCCH HS-SCCH Power Offset

WCEL PtxOffsetWPS

WCEL PtxPSstreamAbsMax

WCEL PtxPrimaryCCPCH BCH Power

WCEL PtxPrimaryCPICH Primary CPICH power

WCEL PtxPrimarySCH Primary SCH power

WCEL PtxSCCPCH1 S-CCPCH Power


WCEL PtxSCCPCH2SF128 S-CCPCH Power


WCEL PtxSecSCH Secondary SCH Power

WCEL PtxTarget

WCEL PtxTargetHSDPA

Cell maximum transmission power

Maximum Transmission Power IE (TS 25.433)

Planned maximum downlink transmission power of a radio linkF-DPCH maximum transmission powerF-DPCH minimum transmission powerHigh threshold of PtxTotal for dynamic HSDPA pwr allocMargin for total downlink transmission power for downlink channel type selectionThe Maximum transmission power E-HICHMaximum allowed HSDPA power

HS-PDSCH,HS-SCCH,E-AGCH,E-RGCH and E-HICH Total Po

Filtering Coefficient of PtxTotal measurement


Offset for transmitted powerThe transmission power offset of the E-AGCHThe power offset of the E-AGCH

PtxOffsetEAGCHDPCCH

The power offset of the E-HICHThe transmission power offset of the E-RGCHThe power offset of the E-RGCH

PtxOffsetERGCHDPCCH

The power offset of E-xxCH for 2ms TTIThe power offset of E-xxCH for SHOThe power offset of F-DPCH for SHOOffset for transmitted non-HSDPA powerThe power offset of the HS-SCCHOffset for transmitted Wireless Priority Service powerMaximum transmitted code power of PS streaming RABTransmission power of the primary CCPCH channelTransmission power of the primary CPICH channelTransmission power of the primary SCH channelTx power of S-CCPCH for PCH/FACH(s) or standalone FACH(s)Tx power of S-CCPCH for Standalone PCHTx power of S-CCPCH for Standalone PCH SF 128Tx power of S-CCPCH for SABTransmission power of the secondary SCH channelTarget for transmitted powerTarget for transmitted non-HSDPA power

WCEL

WCEL PtxTargetPSMax

WCEL PtxTargetPSMin

WCEL PtxTargetPSStepDown

WCEL PtxTargetPSStepUp

WCEL PtxTargetTotMax

WCEL PtxTargetTotMin

WCEL PtxThresholdCCH

WCEL PtxTotalReportPeriod Report Periodicity

WCEL QHCS Qhcs

WCEL Qhyst1 Qhyst1s

WCEL Qhyst1FACH Qhyst1s,FACH

WCEL Qhyst1PCH Qhyst1s,PCH

WCEL Qhyst2 Qhyst2s

WCEL Qhyst2FACH Qhyst2s, FACH

WCEL Qhyst2PCH Qhyst2s, PCH

WCEL QqualMin Qqualmin

WCEL QrxlevMin QrxlevMin

WCEL Routing Area Code RAC

WCEL RACH Capacity RACHCapacity

WCEL

WCEL

WCEL RACH_Tx_NB01max NB01max

WCEL RACH_Tx_NB01min NB01min

WCEL RACH_tx_Max Mmax

WCEL RACHloadReportPeriod Report Periodicity

WCEL RACHmeasFilterCoeff

WCEL RNARGroupId

WCEL RRCconnRepTimer1

WCEL RRCconnRepTimer2

WCEL

WCEL

DCH PS target adjust period for dyn HSDPA pwr alloc

PtxTargetPSAdjustPeriod

Max DCH PS target for dynamic HSDPA pwr allocationMin DCH PS target for dynamic HSDPA pwr allocationDCH PS target step down for dynamic HSDPA pwr allocDCH PS target step up for dynamic HSDPA pwr allocMaximum value for dynamic total tx powerMinimum value for dynamic total tx powerThreshold for total downlink transmission power for downlink channel type selectionReporting period for the TCP measurements.Quality threshold level for HCSCell reselection hysteresis 1Cell reselection hysteresis 1 for FACHCell reselection hysteresis 1 for PCHCell reselection hysteresis 2Cell reselection hysteresis 2 for FACHCell reselection hysteresis 2 for PCHMinimum required quality level in the cellMinimum required RX level in the cell


RACH Inter Frequency Measurement Quantity

RACHInterFreqMesQuant

Inter-frequency RACH reporting quantity

RACH Intra Frequency Measurement Quantity

RACHIntraFreqMesQuant

Intra-frequency reporting quantity for RACH report

RACH random back-off upper boundRACH random back-off lower boundRACH maximum number of preamble cyclesReporting period of Acknowledged PRACH PreamblesFiltering Coefficient of PRACH measurement


Radio Network Access Regulation Function Group IdRRC connection setup Retransmission Timer1RRC connection setup Retransmission Timer2Event E measurement of RSEPS

RSEPSEventECommMeas

Hysteresis time of RTWP Event E measurements

RTWPEventECommHyst


WCEL

WCEL RTWPMeasFilterCoeff

WCEL

WCEL

WCEL

WCEL

WCEL RachLoadMarginCCH

WCEL

WCEL RefServForCodePower

WCEL Relocation Commit

WCEL RsrvdSignaturesOffset

WCEL RT FMCG Identifier RtFmcgIdentifier

WCEL RT FMCI Identifier RtFmciIdentifier

WCEL RT FMCS Identifier RtFmcsIdentifier

WCEL Rx Diversity Indicator RxDivIndicator

WCEL Service Area Code SAC

WCEL SACB

WCEL SHCS_RAT SHCS,RAT

WCEL SHCS_RATConn SHCS,RAT

WCEL Indicator of SIB4 SIB4Indicator SIB4 indicator

WCEL SIB7factor Expiration Time Factor

WCEL

WCEL -

WCEL SRBMapRRCSetupEC -

WCEL Sector Identifier SectorID

WCEL

WCEL

WCEL ServHOPeriodInterFreq

WCEL ServHOPeriodInterRAT

WCEL Shutdown step amount ShutdownStepAmount

WCEL Shutdown window ShutdownWindow

WCEL S intersearch Sintersearch Sintersearch

Event E measurement of received total wide band power

RTWPEventECommMeas

Filtering Coefficient of RTWP common measurements


HSDPA FMCG identifier for AMR multi-service

RTWithHSDPAFmcgIdentifier

HSDPA FMCI identifier for AMR multi-service

RTWithHSDPAFmciIdentifier

HSDPA FMCS identifier for AMR multi-service

RTWithHSDPAFmcsIdentifier

HSPA FMCS identifier for AMR multi-service

RTWithHSPAFmcsIdentifier

Margin for RACH load for downlink channel type selectionThreshold for RACH load for downlink channel type selection

RachLoadThresholdCCH

Reference service in the max code power definitionUsage of Relocation Commit procedure in inter RNC HHO

RelocComm_in_InterRNC_HHO

Reserved E-RGCH and E-HICH signatures per cell

Service Area Code (SAC)

Service Area Code for SABThreshold for inter-RAT measurement rules in HCSThreshold for inter-RAT measurement for connected mode

SIB7 expiration time factorSIR target offset for DPCCH with E-DPCH

SIRDPCCHOffsetEDPCH

SRB DCH bit rate in RRC setup based on EC

SRBBitRateRRCSetupEC

SRB mapping in RRC setup based on EC

Number of inter-frequency service HOs

ServHONumbUEInterFreq

Number of inter-RAT service HOs

ServHONumbUEInterRAT

Period to start inter-frequency service HOsPeriod to start inter-RAT service HOs

WCEL SintersearchConn Sintersearch

WCEL S intrasearch Sintrasearch Sintrasearch

WCEL SintrasearchConn Sintrasearch

WCEL S limit,SearchRAT Slimit_SearchRAT Slimit,SearchRAT

WCEL Slimit_SearchRATConn Slimit,SearchRAT

WCEL SpeedScaleTresel

WCEL S prioritysearch1 Sprioritysearch1 Sprioritysearch1

WCEL S prioritysearch2 Sprioritysearch2 Sprioritysearch2

WCEL S searchHCS SsearchHCS SsearchHCS

WCEL SsearchHCSConn SsearchHCS

WCEL S searchRAT Ssearch_RAT SsearchRAT

WCEL Ssearch_RATConn SsearchRAT

WCEL T300 T300 T300

WCEL T312 T312 T312

WCEL T312Conn T312

WCEL T313 T313 T313

WCEL T315 T315 T315

WCEL Cell barred period TBarred Tbarred

WCEL TCPEventECommHyst

WCEL TCPEventECommMeas

WCEL TCPMeasFilterCoeff

WCEL TCrmax TCrmax

WCEL TCrmaxHyst TCrmaxHyst

WCEL TPCCommandERTarget

WCEL -

WCEL Tcell Tcell

WCEL Thresh serving low Threshservlow Threshserving,low

WCEL ToAWE_CCH

WCEL ToAWS_CCH

WCEL TrafVolThresholdDLLow

WCEL Treselection Treselection

WCEL TreselectionFACH Treselections,FACH

S intersearch for connected mode

S intrasearch for connected mode

S limit,SearchRAT for connected modeScaling factor of Treselection for UE in high mobility

Speed dependent ScalingFactor for Treselection

S searchHCS for connected mode

S searchRAT for connected mode

T312 for connected mode

Hysteresis time of TCP Event E measurements


Event E measurement of transmitted carrier powerFiltering Coefficient of TCP common measurements


Evaluating period for amount of cell reselectionsHysteresis to revert from UE high-mobility measurementsTPC command error rate target

TPC command error rate target

Target non-serving E-DCH to total E-DCH power ratio

TargetNSEDCHToTotalEDCHPR

Frame timing offset of a cell

Time of Arrival Window Endpoint for common channels


Time of Arrival Window Startpoint for common channels


Downlink traffic volume measurement low thresholdCell reselection triggering timeCell reselection triggering time for FACH

WCEL TreselectionPCH Treselections,PCH

WCEL UARFCN UARFCN

WCEL UEtxPowerMaxDPCH

WCEL UEtxPowerMaxPRACH

WCEL

WCEL

WCEL ULLoadStateHSUOffset

WCEL URA identity URAId URA identity

WCEL UTRAN_DRX_length

WCEL Use of HCS UseOfHCS Use of HCS

WCEL UsersPerHSSCCHCode

WCEL VoiceOverrideSTHSUPA

WCEL Change origin WCELChangeOrigin

WCEL Global CN Id WCELGlobalCNid

WCEL WCELCSCNId

WCEL Mobile Country Code WCELMCC

WCEL Mobile Network Code WCELMNC

WCEL WCELMNCLength

WCEL WCELPSCNId

WCEL WCelState

WLCSE Antenna Bearing AntBearing

WLCSE AntHPBW

WLCSE Antenna Coordinates AntennaCoord

WLCSE

WLCSE

WLCSE

WLCSE

WLCSE

WLCSE

WLCSE

WLCSE

WLCSE

Cell reselection triggering time for PCHUTRA Absolute Radio Frequency Channel NumberMaximum UE transmission power on DPCH


Maximum UE transmission power on PRACH


Max UE transmission power on PRACH for connected mode

UEtxPowerMaxPRACHConn


UL loaded state for HSPAusers bit rate limit

ULLoadStateHSUBRLimit

UL loaded state for HSPA users offset

UTRAN DRX cycle length

UTRAN DRX cycle length coefficient

Max nbr of conv users per reserved HS-SCCH codeOverride switch for voice services in the HSUPA cell

CS Core Network Identity

Mobile Network Code LengthPS Core Network IdentityWCDMA Cell Operational State

Antenna HPBW (Half Power Beam Width) for Cell

Antenna Coordinates Altitude Direction

AntennaCoordAltitudeDirect

Antenna Coordinates Altitude of Ground Level

AntennaCoordAltitudeGround

Antenna Coordinates Latitude Degrees

AntennaCoordLatitudeDegrees

Antenna Coordinates Latitude Fractions

AntennaCoordLatitudeFractions

Antenna Coordinates Latitude Minutes

AntennaCoordLatitudeMinutes

Antenna Coordinates Latitude Seconds

AntennaCoordLatitudeSeconds

Antenna Coordinates Latitude Sign

AntennaCoordLatitudeSign

Antenna Coordinates Longitude Degrees

AntennaCoordLongitudeDegrees

Antenna Coordinates Longitude Fractions

AntennaCoordLongitudeFractions

WLCSE

WLCSE

WLCSE

WLCSE Coverage Type CovType

WLCSE EnvCharact

WLCSE MaxCellBackRad

WLCSE Maximum cell radius MaxCellRad

WLCSE Repeater exist RepeaterExist

WLCSE Change origin WLCSEChangeOrigin

WLCSE LCSE UTRAN Cell Id WLCSEUtranCellId

WLCSE Cell Identifier WLCSECId

WLCSE Mobile Country Code WLCSEMCC

WLCSE Mobile Network Code WLCSEMNC

WLCSE WLCSEMNCLength

WLCSE RNC Identifier WLCSERncId

WLCSE WLCSE Id WLCSEid

WRAB DeltaSIR

WRAB DeltaSIRAfterDownlink DeltaSIRafter1

WRAB DeltaSIRAfterUplink DeltaSIRafter1

WRAB DeltaSIRDownlink DeltaSIR1

WRAB DeltaSIRUplink DeltaSIR1

WRAB DownlinkOrthog

WRAB

WRAB

WRAB EbNoDCHOfPSNRT

WRAB DCH quality target

WRAB

WRAB EbNoDCHOfPSNRTSec


WRAB

WRAB

WRAB EbNoDCHOfPSStr

Antenna Coordinates Longitude Minutes

AntennaCoordLongitudeMinutes

Antenna Coordinates Longitude Seconds

AntennaCoordLongitudeSeconds

Antenna Coordinates Longitude Sign

AntennaCoordLongitudeSign

Environment characterisationMaximum Cell back radius


Delta SIR in the compressed modeDownlink delta SIR after in the compressed modeUplink delta SIR after in the compressed modeDownlink delta SIR in the compressed modeUplink delta SIR in the compressed modeDownlink orthogonality factorHARQ threshold for OLPC of HS CS voice E-TTI 10 ms

EDCHBLERAdjCSVoice10

HARQ threshold for OLPC of HS CS voice E-TTI 2 ms

EDCHBLERAdjCSVoice2

Rate matching with the PS NRT DCHPrimary quality target of the PS NRT DCH

EbNoDCHOfPSNRTPriQua

Primary Eb/N0 of the PS NRT DCH

EbNoDCHOfPSNRTPrim

Secondary Eb/N0 of the PS NRT DCHSecondary quality target of the PS NRT DCH

EbNoDCHOfPSNRTSecQua

Quality target selector for DL PS NRT DCH

EbNoDCHOfPSNRTSelQuaDL

Quality target selector for UL PS NRT DCH

EbNoDCHOfPSNRTSelQuaUL

Rate matching with the PS streaming DCH


WRAB EbNoDCHOfPSStrPrim

WRAB EbNoDCHOfPSStrSec


WRAB

WRAB

WRAB EbNoDCHOfSRB

WRAB EbNoDCHOfSRB136


WRAB EbNoDCHOfSRB34

WRAB EbNoDCHOfSRB34Qua DCH quality target

WRAB EbNoDCHRateGain

WRAB

WRAB

WRAB

WRAB

WRAB

WRAB EbNoDCHRateGainSRB

WRAB EbNoDCHRxDiv2

WRAB EbNoDCHRxDiv4

WRAB EbNoDCHTxDiv

WRAB EbNoEDCHCSAMR

WRAB EbNoEDCHOfPSStr

WRAB EDCHPSStr128Kbps





WRAB EDCHPSStr8Kbps

WRAB

WRAB EbNoOfCSData

WRAB EbNoDCHOfCSDataNT

Primary quality target of the PS streaming DCH

EbNoDCHOfPSStrPriQua

Primary Eb/N0 of the PS streaming DCHSecondary Eb/N0 of the PS streaming DCHSecondary quality target of the PS streaming DCH

EbNoDCHOfPSStrSecQua

Quality target selector for DL PS streaming DCH

EbNoDCHOfPSStrSelQuaDL

Quality target selector for UL PS streaming DCH

EbNoDCHOfPSStrSelQuaUL

Rate matching with the SRB DCHPlanned Eb/N0 of the SRB13.6 DCHQuality target of the SRB13.6 DCH

EbNoDCHOfSRB136Qua

Planned Eb/N0 of the SRB3.4 DCHQuality target of the SRB3.4 DCHData rate gain in the Eb/N0 definitionData rate gain for the Eb/N0 of the CS AMR

EbNoDCHRateGainCSAMR

Data rate gain for the Eb/N0 of the CS data

EbNoDCHRateGainCSData

Data rate gain for the Eb/N0 of the PS data DCH

EbNoDCHRateGainPSData

Data rate gain selector for the Eb/N0 of the DL DCH

EbNoDCHRateGainSFDown

Data rate gain selector for the Eb/N0 of the UL DCH

EbNoDCHRateGainSFUp

Data rate gain for the Eb/N0 of the SRBCell offset in the UL Eb/N0, 2-way Rx diversityCell offset in the UL Eb/N0, 4-way Rx diversityCell offset in the DL Eb/N0 definitionEb/N0 planned for the E-DCH MAC-d flow of CS voiceEbNo for E-DCH StreamingEbNo for E-DCH Streaming 128KbpsEbNo for E-DCH Streaming 16KbpsEbNo for E-DCH Streaming 248KbpsEbNo for E-DCH Streaming 32KbpsEbNo for E-DCH Streaming 64KbpsEbNo for E-DCH Streaming 8KbpsEbNo for E-DCH Streaming over 248Kbps

EDCHPSStrOver248Kbps

Rate matching with the CS data servicesPlanned Eb/N0 of the CS non transparent data


WRAB EbNoDCHOfCSDataT


WRAB EbNoOfCSNBAMR

WRAB

WRAB


WRAB

WRAB

WRAB EbNoOfCSWBAMR

WRAB


WRAB

WRAB L1BLERTEDCHVoice10

WRAB L1BLERTEDCHVoice2

WRAB SIRDPCCHInitialDCH

WRAB

WRAB SIRDPCCHInitialDCH16

WRAB





WRAB

WRAB

WRAB

WRAB

WRAB

WRAB

WRAB

WRAB

WRAB

Quality target of the CS non transparent data

EbNoDCHOfCSDataNTQua

Planned Eb/N0 of the CS transparent dataQuality target of the CS transparent data

EbNoDCHOfCSDataTQua

Rate matching with the CS NB-AMRPlanned Eb/N0 of the CS NB-AMR 12.2

EbNoDCHOfCSNBAMR122

Planned Eb/N0 of the CS NB-AMR 5.9

EbNoDCHOfCSNBAMR59

Quality target of the CS NB AMR

EbNoDCHOfCSNBAMRQua

Planned Eb/N0 the CS NB-AMR subflow B

EbNoDCHOfCSNBAMRb

Planned Eb/N0 the CS NB-AMR subflow C

EbNoDCHOfCSNBAMRc

Rate matching with the CS WB-AMRPlanned Eb/N0 of the CS WB-AMR 12.65

EbNoDCHOfCSWBAMR1265

Quality target of the CS WB-AMR

EbNoDCHOfCSWBAMRQua

Planned Eb/N0 the CS WB-AMR subflow B

EbNoDCHOfCSWBAMRb

BLER target for the HS CS voice E-TTI 10 msBLER target for the HS CS voice E-TTI 2 msInitial SIR target for UL DPCCH with DPDCHUL SIR target without HS-DPCCH - DPDCH SF 128

SIRDPCCHInitialDCH128

UL SIR target without HS-DPCCH - DPDCH SF 16UL SIR target without HS-DPCCH - DPDCH SF 256

SIRDPCCHInitialDCH256

UL SIR target without HS-DPCCH - DPDCH SF 32UL SIR target without HS-DPCCH - DPDCH SF 4UL SIR target without HS-DPCCH - DPDCH SF 64UL SIR target without HS-DPCCH and DPDCH SF 8UL SIR target with HS-DPCCH - DPDCH SF 128

SIRDPCCHInitialDCHHS128

UL SIR target with HS-DPCCH - DPDCH SF 16












Maximum SIR target for UL DPCCH with DPDCH only

SIRDPCCHInitialDCHMax

Minimum SIR target for UL DPCCH with DPDCH only

SIRDPCCHInitialDCHMin

WRAB

WRAB

WRAB

WRAB Change origin WRABChangeOrigin

WRAB WRAB Identifier WRABId

WSG GSM Roaming allowed GSMRoaming

WSG Subscriber Home PLMN HomePLMN

WSG HomePlmnMCC MCC

WSG HomePlmnMNC MNC

WSG HomePlmnMNCLength

WSG OperatorName

WSG SubscriberGroupId

WSG

WSG Change origin WSGChangeOrigin

WSMLC CiPosCalcInSAS

WSMLC Confidence Area Level ConfAreaLevel

WSMLC EmergencyShapeList -

WSMLC EmArc

WSMLC EmPoint

WSMLC EmPointAndAlt

WSMLC EmPointAndCircle

WSMLC EmPointAndEll3D

WSMLC EmPointAndEllipse

WSMLC EmPolygon

WSMLC LCS Capacity Usage LCSCapacityUsage

WSMLC LCS Interface option LCSInterfaceOption

WSMLC LCS Shape Conversion LCSShapeConversion

WSMLC Network based A-GPS NetworkBasedAGPS

WSMLC NetworkIndicatorForSAS

WSMLC SMLC Operational Mode OperationalMode

WSMLC

WSMLC

SIR target for UL outerloop power control with DPDCH

SIRDPCCHInitialDCHOffset

SIR target for UL DPCCH with DPDCH, 2-way Rx diversity

SIRDPCCHInitialDCHRxDiv2

SIR target for UL DPCCH with DPDCH, 4-way Rx diversity

SIRDPCCHInitialDCHRxDiv4

Home PLMN Mobile Country CodeHome PLMN Mobile Network CodeHome PLMN Mobile Network Code LengthName of the subscriber home PLMNSubscriber Group IdentifierIdentifier of the Authorised Network

WSGAuthorisedNetworkId

Cell-ID based Position Calculation in SAS

Shape Priority List for Emergency CallsArc Priority for Emergency CallsPoint Priority for Emergency CallsPoint And Altitude Priority for Emergency CallsPoint And Circle Priority For Emergency Calls3D Point And Ellipse Priority For Emergency CallsPoint And Ellipse Priority For Emergency CallsPolygon Priority for Emergency Calls

Network indicator for SAS

Partial A-GPS data delivery

PartialAGPSDataDelivery

PeriodicalReportingCapacityUsage

PeriodicalReportingCapacityUsage

WSMLC PreferredAGPSMethod

WSMLC RNCDelayTolRespTime

WSMLC

WSMLC ShapeList -

WSMLC Arc Priority Arc

WSMLC Point Priority Point

WSMLC PointAndAlt

WSMLC PointAndCircle

WSMLC PointAndEll3D

WSMLC PointAndEllipse

WSMLC Polygon Priority Polygon

WSMLC

WSMLC UE based A-GPS UEBasedAGPS

WSMLC Change origin WSMLCChangeOrigin

WSMLC WSMLC Id WSMLCid

Preferred A-GPS methodLocation Reporting Delay Tolerant response timeLocation Reporting Low Delay Response time

RNCLowDelayResponseTime

Shape Priority List for Non-Emergency Calls

Point And Altitude PriorityPoint And Uncertainty Circle Priority3D Point And Ellipse PriorityPoint And Uncertainty Ellipse Priority

Signalling Point Code of SAS

SignallingPointCodeOfSAS

Description Multiplicity Related functions System information

1

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1

1 Handover Control

1 SIB11, SIB12

1 SIB11, SIB12

1 SIB11, SIB12

1

1

1 SIB18

1 SIB18

1 SIB18

1 SIB11, SIB12

The parameter defines the origin of the last configuration action affecting the object.Identification of ADJD (Additional Intra-frequency Adjacency) within a WCDMA cell.An additional intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, The parameter indicates the transmission power level of the Primary CPICH (Common Pilot The parameter indicates whether the additional intra-frequency neighbour cell is The parameter identifies the parameter set (HOPS object) which controls the intra-The PLMN Identifier and the Location Area Code (LAC) determine the Location Area (LAI) to An additional intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, An additional intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, The parameter defines whether 2 or 3 digits are used in the mobile network code (MNC) of The parameter defines the parameter set (HOPS object) which controls the intra-The Location Area (LAI) and the Routing Area Code (RAC) determine the Routing Area to An additional intra-frequency neighbor cell is identified with the UTRAN Cell Identifier, The parameter defines the parameter set (HOPS object) which controls the intra-The parameter identifies the parameter set (HOPS object) which controls the intra-The downlink scrambling code of the Primary CPICH (Common Pilot Channel) of the The parameter indicates whether the Primary CPICH of the additional intra-frequency The parameter defines the origin of the last configuration action affecting the object.Identification of inter-system adjacency (GSM or GAN) within a WCDMA cell. If Wireless The parameter indicates whether the inter-system neighbour cell is a GSM cell or a GAN cell.Base Station Identity Code (BSIC) is composed of Network Colour Code (NCC) and

Handover Control, Mobile Device Control

This parameter contains the absolute RF channel number of the Broadcast Control Channel (BCCH)


This parameter indicates whether the BCCH ARFCN of the neighbour cell belongs to the GSM


GSM and GAN neighbour cells are identified with the Cell Global Identifier (CGI),


The PLMN Identifier and Location Area Code (LAC) determine the Location Area (LAI) to






This parameter defines whether 2 or 3 digits are used in Mobile Network Code.Base Station Identity Code (BSIC) is composed of Network Colour Code (NCC) and


1 Handover Control

1 Mobile Device Control SIB11, SIB12

1 Handover Control

1 Handover Control SIB11, SIB12, SIB18


1

1

1

1 Handover Control

1

1 Handover Control

1 Handover Control

1

1 SIB18

1 SIB18

1 SIB11, SIB12, SIB18

1 Handover Control

1

1

1 Handover Control

1 SIB11, SIB12

1 SIB11, SIB12

1 Handover Control


1 Handover Control SIB11, SIB12

1 Handover Control



1

1

1 SIB19

1 SIB19

The parameter indicates whether the GSM neighbour cell is included in the System

SIB11, SIB12, SIB18, SIB11bis

This parameter indicates the maximum transmission power level that a UE can use when This parameter indicates the maximum transmission power level that a UE may use on a Defines the parameter set (HOPG object) which controls the inter-RAT handover of a non-real Defines the parameter set (HOPG object) which controls the inter-RAT handover of a real time The parameter defines the origin of the last configuration action affecting the object.Identification of ADJI (Inter-Frequency Adjacency) within a WCDMA Cell.An inter-frequency neighbour cell is identified with the UTRAN Cell Identifier,


This parameter indicates the transmission power level of the Primary CPICH (Common Pilot This parameter controls the activity of common load measurement of certain inter-frequency

Admission Control, Handover Control

This parameter defines CPICH EcNo offset for the non-critical inter-frequency handover This parameter defines if an inter-frequency neighbour cell that is blocked from the PLMN Identifier and Location Area Code (LAC) determine the Location Area (LAI) to


An inter-frequency neighbour cell is identified with UTRAN Cell Identifier which is


An inter-frequency neighbour cell is identified with UTRAN Cell Identifier, which is


The parameter defines whether 2 or 3 digits are used in the Mobile Network Code (MNC).This parameter indicates whether the neighbouring cell provides the HSPA Location Area (LAI) and Routing Area Code (RAC) determine the Routing Area to which


An inter-frequency neighbor cell is identified with UTRAN Cell Identifier, which is


This parameter indicates whether the inter-frequency neighbour cell is included in the


Defines the downlink scrambling code of the Primary CPICH (Common Pilot Channel)


Indicates, whether the Primary CPICH of the inter-frequency neighbour cell is


This parameter indicates the maximum transmission power level that a UE may use on This parameter indicates the maximum transmission power level that a UE can use when This parameter defines the UTRA Absolute Radio Frequency Channel Number of the This parameter indicates whether the neighbor cell is defined as a target cell for inter-Defines the parameter set (HOPI object) which controls the inter-frequency handover of a Defines the parameter set (HOPI object) which controls the inter-frequency handover of a The parameter defines the origin of the last configuration action affecting the object. This parameter is an identification of ADJL within a WCDMA cell.This parameter defines the E-UTRA Absolute Radio Frequency Channel Number of the


This parameter indicates the measurement bandwidth information common for all

1 Handover Control

1

1 SIB11, SIB12

1 Handover Control

1 Handover Control

1 Handover Control

1 SIB11, SIB12

1 Handover Control

1 Handover Control SIB18

1 Handover Control SIB18


1 Handover Control

1 Handover Control

1 Handover Control

1 SIB11, SIB12

1 SIB11, SIB12


1 Handover Control


1 Handover Control


1

1

1

4

4

1

1

1

1

1 SIB3

1

Defines the parameter set (HOPL object) which controls the inter-RAT handover of idle and The parameter defines the origin of the last configuration action affecting the object.Identification of ADJS (Intra-Frequency Adjacency) within a WCDMA cell.An intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, This parameter indicates the transmission power level of the Primary CPICH (Common Pilot This parameter indicates whether the neighbouring cell is forbidden to affect the The CPICH Ec/No Offset determines an offset value, which the UE adds to the CPICH


The PLMN Identifier and the Location Area Code (LAC) determine the Location Area (LAI) to An intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, An intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, The parameter defines whether 2 or 3 digits are used in the Mobile Network Code (MNC).The Location Area (LAI) and the Routing Area Code (RAC) determine the Routing Area to An intra-frequency neighbor cell is identified with the UTRAN Cell Identifier, which is The parameter determines whether the intra-frequency neighbour cell is


The downlink scrambling code of the Primary CPICH (Common Pilot Channel) of the intra-


This parameter indicates whether the Primary CPICH of the intra-frequency neighbour cell


This parameter indicates the maximum transmission power level that a UE can use when The parameter identifies the parameter set (HOPS object) controlling the intra-This parameter defines the parameter set (HOPS object) which controls the intra-This parameter identifies the parameter set (HOPS object) controlling intra-This parameter defines the parameter set (HOPS object) which controls the intra-This parameter defines the origin of the last configuration action affecting the object. This parameter is the identifier for the Cell Broadcast center data related to the Service Indicates the used IP-address (Ipv4 or Ipv6). Only one type of IP-address is allowed to be CBC-IP address for the Cell Broadcast Service. Each CBC can have a maximum of four Public Land Mobile Network identity for the Cell Broadcast Service. A maximum of four Unique country identification. MCC consists of three digits. MCC together with MNC Unique network identification within country. MNC consists of two or three digits. This parameter defines whether 2 or 3 digits are used in Mobile Network Code.This parameter defines the logical address of the ICSU unit which handles the CBC with This parameter is used when the Radio Network Access Regulation Function feature is The parameter defines the origin of the last configuration action affecting the object.

1

1

1

1

1

1

1

1

1

1

1

1

1

1

6

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

18

This parameter uniquely identifies the CMOB (Congestion Management Group) The Cell Access Restriction parameter defines the percentage of the cell that is User-defined name for the restriction group.Restriction group type. Only parameter values 3 (RNAR),4 (CS-DSAC), and 5 (PS-DSAC) are The parameter is a switch to enable or disable traffic restriction.This parameter enables you to specify the allowed AAL type 2 CPS-SDU (Common This parameter indicates whether the BTS AAL2 multiplexing functionality is enabled in the Iub This parameter specifies the allowed AAL type 2 CPS-SDU (Common Part Sublayer Service This parameter defines the length of the AAL2 queue for NRT HSDPA (tolerant) traffic in a VCC This parameter defines the length of the AAL2 queue for NRT HSDPA (tolerant) traffic in a VCC This parameter defines the length of the DL AAL2 queue for all HSUPA traffic. This This parameter defines the length of the AAL2 queue for NRT DCH (stringent bi-level) traffic This parameter defines the length of the AAL2 queue for NRT DCH (stringent bi-level) traffic This parameter defines the length of the AAL2 queues in VCC where only the stringent and AAL2 signalling link configuration.This parameter defines the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in This parameter defines the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in Early Packet Discard option for the ATM termination point.The Egress MDCR is an optional parameter for UBR+ connections to define a long-term target This Egress parameter defines a weight which is used in sharing the excessive bandwidth The Ingress MDCR is an optional parameter for UBR+ connections and it is used to define a long-This Ingress parameter defines a weight which is used in sharing the excessive bandwidth This parameter defines the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in This parameter defines the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in Partial Packet Discard option for the ATM termination point.ATM termination point service category.This parameter specifies the effective administrative state of the termination point. The ATM external interface used for the AAL2 signalling link VP/VC termination point.Identification of the Traffic Termination Point for AAL2 signalling link.This parameter is the AAL2 signalling link virtual channel identifier.The Virtual Path Identifier defines a group of virtual channel links at a given reference point This parameter defines the AAL2 User Plane link configuration.

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

8

1

1

1

1

The AAL2 Fallback attribute field at the ATM end point configuration indicates whether the This parameter specifies the AAL type 2 path between two adjacent nodes.AAL2 Path type field at the ATM end point configuration indicates the ITU-T Q.2630.2 AAL The AAL2 signalling link ATM interface identifier reference for the AAL2 user plane link. The virtual channel identifier for the AAL2 signalling link.The Virtual Path Identifier specifies a group of virtual channel links at a given The ATM external interface used for the AAL2 user plane link VP/VC termination point. This parameter defines the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in This parameter defines the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in UBR+ VCC is defined by its Minimum Desired Cell Rate (MDCR) and Peak Cell Rate (PCR). User The Egress UBR Share parameter defines a weight to share the excessive bandwidth UBR+ VCC is defined by its Minimum Desired Cell Rate (MDCR) and Peak Cell Rate (PCR). User The Ingress UBR Share parameter defines a weight to share the excessive bandwidth This parameter defines the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in This parameter defines the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in ATM termination point service category.This parameter indicates the effective administrative state of the termination point. The parameter defines, together with the AAL2 Path Type combinations, the type of the traffic The virtual channel identifier for the AAL2 user plane link termination point.The Virtual Path Identifier defines a group of virtual channel links at a given reference point This parameter identifies the adjacent AAL type 2 node.This parameter defines the A2EA of the AAL2 termination in the WCDMA BTS. It is used This parameter specifies the Digit Analysis Tree in which the digit analyses for the Iub This parameter specifies the ATM route related to the ATM end point.The parameter defines the VCC Bundle this VCC is attached to. If the value of this The parameter defines the WAM unit logical identification at the BTS end related to the AAL2 This parameter defines the scheduling weights profile for the ATM EP. The profile id is Parameters related to the ATM interface used for the connection configuration.This parameter describes the administrative state of the ATM interface.This parameter identifies the numerical value of the maximum egress transmission bandwidth This parameter identifies the numerical value of the maximum ingress transmission bandwidth This parameter identifies the maximum number of allocated bits of the VCI sub field per VPLtp of

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

6

1

1

1

1

1

This parameter identifies the maximum number of allocated bits of the VPI sub field for the defined This parameter identifies the physical resource that the interface is based on. This parameter identifies the ATM external interface used for the VP/VC Link termination This parameter describes the type of the ATM interface.The common NBAP signalling link configuration.This parameter defines the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in This parameter defines the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in Early Packet Discard option for the ATM termination point.The Egress MDCR is an optional parameter for UBR+ connections and it is used to define a long-The Egress UBR Share parameter defines a weight to be used in sharing the excessive This parameter defines the ICSU unit index of the C-NBAP signalling link.The Ingress MDCR is an optional parameter for UBR+ connections and it is used to define a long-The Ingress UBR Share parameter defines a weight which is used in sharing the excessive This parameter indicates the operational state of the Common NBAP link.This parameter defines the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in This parameter defines the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in Partial Packet Discard option for the ATM termination point.ATM termination point service category.The ATM external interface used for the C-NBAP VP/VC Link termination point.The parameter indicates the effective administrative state of the termination point. An identifier that defines a particular virtual channel link for a given virtual path connection The Virtual Path Identification for the termination point.The parameter defines the origin of the last configuration action affecting the object.The COCO identifier identifies the Connection Configuration object for the Iub interface in the This parameter defines whether or not the CDVT is calculated by the system at the ATM This parameter defines whether or not the termination points are created during the The dedicated NBAP signalling link configuration.The parameter defines the identification of the Communication Control Port in the BTS. One The ATM external interface used for the D-NBAP VP/VC Link termination point.This parameter specifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in This parameter specifies the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in Early Packet Discard option for the ATM termination point.

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

2

1

1

1

8

1

1

1

1

1

1

1

1

1

1 Handover Control

1 Handover Control

The Egress MDCR Egress is an optional parameter for UBR+ connections and it is The Egress UBR Share parameter defines a weight to share the excessive bandwidth This parameter indicates the ICSU unit index of the D-NBAP signalling link.The Ingress MDCR is an optional parameter for UBR+ connections and it is used to define a long-The Ingress UBR Share parameter defines a weight to share the excessive bandwidth The operational status of the dedicated NBAP link.This parameter specifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in This parameter specifies the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in Partial Packet Discard option for the ATM termination point.ATM termination point service category.This parameter indicates the effective administrative state of the termination point. The virtual channel identifier for a dedicated NBAP identifies a particular virtual channel The Virtual Path Identifier specifies a group of virtual channel links at a given Defines whether the Dynamic Scheduling for the NRT DCH with path selection feature is This parameter defines if the A2EA and AAL2 path ids for the AAL2 user plane link are Defines whether the dynamic flow control is enabled or not for a BTS. If the value is This is a structure element that contains all the configuration parameters related to Defines how the excess bandwidth is divided between NRT DCH and HSDPA traffic in case of The parameter identifies the VCC Bundle inside RNC.The parameter defines a peak cell rate for a VCC bundle. This is the amount of traffic that The Virtual Path Link termination point parameters of the COCO object.The Virtual Path Identifier parameter specifies a group of virtual channel links at a This parameter specifies the ATM external interface used for the VP/VC Link termination This parameter indicates the effective administrative state of the termination point. This parameter defines the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in UBR+ VPC is defined by its Minimum Desired Cell Rate (MDCR) and Peak Cell Rate (PCR). User This parameter defines the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in ATM termination point service category.This parameter specifies if traffic is shaped on VP level before leaving the system.This parameter specifies the identification of the related WBTS. This value is just for your This parameter enables and disables the use of Directed Retry of AMR call Inter-system This parameter defines the cancellation threshold (DL_DPCH_TXPWR_TH

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1

1

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1

1

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1 Handover Control

The parameter defines the origin of the last configuration action affecting the object.This parameter identifies the FMCG (object for inter-system Frequency Measurement Control) This parameter indicates whether a handover to GSM caused by low measured absolute This parameter indicates whether a handover to GSM caused by low measured absolute This parameter indicates whether a handover to GSM caused by high downlink DPCH TX This parameter indicates whether a handover to GSM caused by high UE TX power level is This parameter indicates whether a handover to GSM caused by bad uplink DCH quality is This parameter determines the downlink DPCH TX power threshold for a CS voice

Admission Control, Handover Control, Packet SchedulerThis parameter

determines the downlink DPCH TX power threshold for a CS data


determines the downlink DPCH TX power threshold for a non-real


determines the downlink DPCH TX power threshold for a real time

Admission Control, Handover Control, Packet SchedulerThe maximum number

of periodical inter-RAT (GSM) measurement reports determines the This parameter determines the maximum number of periodical inter-RAT This parameter determines the measurement reporting interval for periodical This parameter determines the minimum interval between a successful inter-RAT This parameter determines the minimum interval between an unsuccessful inter-RAT This parameter defines the minimum interval between a successful service- or load-based This parameter determines the number of periodical inter-RAT (GSM) measurement In the CELL_DCH state the UE physical layer measurement period for UE TX power This parameter determines the UE TX power threshold for a CS voice connection. If


determines the UE TX power threshold for a CS data connection. If


determines the UE TX power threshold for a non-real time PS data


determines the UE TX power threshold for a real time PS data

Admission Control, Handover Control, Packet SchedulerIf the handover to GSM

caused by high UE TX power is enabled, the RNC starts inter-RAT The parameter indicates whether the IMSI based inter-RAT handover and cell change to This parameter indicates whether an inter-system handover cancellation caused by a This parameter indicates whether an inter-system handover cancellation caused by a CPICH This parameter indicates whether an inter-system handover cancellation caused by a low This parameter indicates whether an inter-system handover cancellation caused by UE The feature Multiple BSIC identification requires a method to supervise the The parameter defines the origin of the last configuration action affecting the object.This parameter identifies the FMCI (object for inter-frequency Frequency

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1

1

1

1

1

1 Handover Control

1

1

1 Handover Control

1

1 Handover Control

1

1

1

1

1 Handover Control

1 Handover Control

1 Handover Control

1 SIB11, SIB12

1 SIB11, SIB12

1 SIB11, SIB12

1 SIB11, SIB12

1

1 SIB11, SIB12

1 SIB11, SIB12

This parameter indicates whether an inter-frequency handover caused by low This parameter indicates whether an inter-frequency handover caused by low This parameter indicates whether an inter-frequency handover caused by high downlink This parameter indicates whether an inter-frequency handover caused by high UE TX This parameter indicates whether an inter-frequency handover caused by bad uplink The parameter indicates whether the IMSI based inter-frequency handover is enabled in This parameter determines the downlink DPCH TX power threshold for a CS voice


determines the downlink DPCH TX power threshold for a CS data


determines the downlink DPCH TX power threshold for a non-real


determines the downlink DPCH TX power threshold for a real time

Admission Control, Handover Control, Packet SchedulerThe maximum number

of periodical inter-frequency measurement reports determines the This parameter determines the maximum number of periodical inter-This parameter determines the measurement reporting interval for periodical This parameter determines the minimum interval between a successful inter-This parameter determines the minimum interval between an unsuccessful inter-This parameter defines the minimum interval between a successful service- or load-based This parameter determines the number of periodical inter-frequency measurement In the CELL_DCH state the UE physical layer measurement period for UE TX power This parameter determines the UE TX power threshold for a CS voice connection. If


determines the UE TX power threshold for a CS data connection. If


determines the UE TX power threshold for a non-real time PS data


determines the UE TX power threshold for a real time PS data

Admission Control, Handover Control, Packet SchedulerIf the inter-frequency

handover caused by high UE TX power is enabled, the RNC starts Multi-Band Load Balancing due to mobility can be done when the quality criteria This parameter defines the RAB combinations for which Multi-Band Load Balancing due to Active Set Weighting Coefficient (W) is used to weight either the measurement result of


When a monitored cell enters the reporting range and triggers event 1A (cell addition), the


When a monitored cell enters the reporting range (addition window), the cell must


Addition Window determines the relative threshold (A_Win) used by the UE to calculate


The parameter indicates whether the Detected Set Reporting (DSR) based soft/softer


When an active cell enters the reporting range and triggers event 1B (cell deletion), the


When an active set cell leaves the reporting range (drop window), the cell must


1 SIB11, SIB12

1 Handover Control

1 Handover Control

1 SIB11, SIB12

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1 Handover Control

1 Handover Control

1 Handover Control

1 SIB11, SIB12

1 SIB11, SIB12

1 SIB11, SIB12

1 SIB11, SIB12



1 Handover Control


1 Handover Control

1 Handover Control

1 Handover Control



1 Handover Control


1

Drop Window determines the relative threshold (D_Win) which is used by the UE to


When the E-DCH channel type is going to be selected, the RNC checks the downlink When the E-DCH is used, the RNC follows the downlink CPICH Ec/No values of the cells In the CELL_DCH state the UE physical layer measurement period for intra-frequency CPICH


The parameter defines the origin of the last configuration action affecting the object.This parameter identifies the FMCS (object for intra-frequency Frequency If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute If the inter-frequency or inter-RAT (GSM) handover caused by low measured absolute In the CELL_DCH state the UE physical layer measurement period for intra-frequency CPICH If the inter-frequency or inter-RAT (GSM) handover caused by a low measured CPICH If the inter-frequency or inter-RAT (GSM) handover caused by low measured CPICH RSCP The parameter indicates whether the IMSI based intra-frequency handover is allowed in This parameter determines the maximum number of cells which can


When the number of cells in the active set has reached the maximum, and a


When the number of cells in the active set has reached the maximum, and a


When the number of cells in the active set has reached the maximum specified by


Defines the priority level of the GSM neighbour cell in the hierarchical cell re-selection Defines the threshold which must be exceeded by the RSSI measurement result of The parameter determines the minimum required GSM RSSI level that the average Determines the time period during which the Temporary Offset 1 is applied in the cell re-This parameter defines the penalty time for a GSM neighbor cell that has rejected a resource If there are several GSM neighbour cells which meet the required radio link properties for the If there are several GSM neighbour cells that meet the required radio link properties for the This parameter is used in the cell re-selection and ranking between WCDMA and GSM cells. Determines the minimum required RSSI level which the measurement result of This parameter determines the minimum required GSM RSSI level which the averaged This parameter is used in the cell ranking between GSM and WCDMA cells when the The parameter defines the origin of the last configuration action affecting the object.

1 Handover Control

1 Handover Control



1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control


1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control







1 Handover Control

1

1 Handover Control

1 Mobile Device Control SIB19




1

1

This parameter identifies the HOPG (object for inter-system Handover Path) uniquely within This parameter determines the margin by which the averaged CPICH Ec/No Defines the priority level of the inter-frequency neighbour cell in the hierarchical cell re-Defines the threshold level which must be exceeded by the CPICH Ec/No of the inter-This parameter determines the minimum required CPICH Ec/No level which the averaged The parameter determines the minimum level required of CPICH Ec/No that the average This parameter determines the minimum required CPICH RSCP level which the averaged The parameter determines the minimum level required of CPICH RSCP that the averaged Defines the time period during which the Temporary Offset 1/2 is applied in the cell re-This parameter defines the penalty time for a WCDMA neighbour cell that has rejected a This parameter determines the margin by which the averaged propagation loss of the The inter-frequency measurement procedure measures one frequency at a time. If there is This parameter controls the measurement order to be followed when there is more than one This parameter controls the measurement order to be followed when there is more than one This parameter controls the measurement order to be followed when there is more than one The inter-frequency measurement procedure measures one frequency at a time. If there is Inter-frequency measurement procedure will measure one frequency at a time. If This parameter is used in the cell re-selection and ranking between WCDMA cells. The This parameter is used in the cell re-selection and ranking between WCDMA cells. The Determines the minimum required CPICH Ec/No level which must be exceeded Determines the minimum required CPICH RSCP level which must be exceeded This parameter is used in the cell ranking between GSM and WCDMA cells when the This parameter is used in the cell ranking between WCDMA cells when the inter-frequency This parameter determines the minimum required CPICH RSCP level which the RACH The parameter defines the origin of the last configuration action affecting the object.This parameter identifies the HOPI (object for inter-frequency Handover Path) uniquely This parameter defines the absolute priority level of the inter-rat LTE (E-UTRA) neighbor This parameter determines the minimum required RSRP level which the measurement This parameter defines the Srxlev based threshold used by the UE for cell reselection This parameter defines the Srxlev based threshold used by the UE for cell reselection This parameter defines the origin of the last configuration action affecting the object.This parameter identifies the HOPL (object for inter-system Handover Path to LTE) uniquely










1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1 Handover Control

1 Packet Scheduler

1 Packet Scheduler

1 Handover Control

1 Handover Control

1

1

1

1

6

1

1

1

1

1

1

1

Defines the priority level of the neighbouring cell in the hierarchical cell re-selection procedure. Defines the threshold level which must be exceeded by the CPICH Ec/No of the Defines the time period during which the Temporary Offset 1/2 is applied in the cell re-This parameter is used in the cell re-selection and ranking between WCDMA cells. The This parameter is used in the cell re-selection and ranking between WCDMA cells. The Determines the minimum required CPICH Ec/No level which must be exceeded Determines the minimum required CPICH RSCP level which must be exceeded This parameter is used in the cell ranking between GSM and WCDMA cells when the This parameter is used in the cell ranking between WCDMA cells when the neighbour cell This parameter determines the number of event triggered periodic intra-frequency Parameter indicates whether the neighbouring cell can participate in a soft When the intra-frequency neighbour cell in question enters the reporting range and This parameter determines the maximum allowed difference between the This parameter determines the maximum allowed difference between the The parameter defines the origin of the last configuration action affecting the object.This parameter identifies the HOPS (object for intra-frequency Handover Path) uniquely This parameter determines whether HSDPA is available in the neighboring DRNC This parameter determines whether HSUPA is available in the neighboring DRNC This parameter determines the maximum allowed difference between the This parameter determines the maximum allowed difference between the The C-NBAP structure contains the C-NBAP link definitions.This parameter indicates the operational state of the Common NBAP link with the IP transport This parameter indicates the ICSU unit index of the C-NBAP link.The parameter defines the SCTP port for the C-NBAP. The value is allocated by the system This parameter gives the D-NBAP link definitions.This parameter defines the identification of the Communication Control Port in the Node B. A This parameter indicates the operational state of the Dedicated NBAP link with the IP transport This parameter indicates the ICSU unit index of the D-NBAP link.This parameter defines the SCTP port for the D-NBAP. The value is allocated by the system This parameter defines the related IP Based Route for the NBAP links. The IP Based The parameter defines the origin of the last configuration action affecting the object.The IPNB object identifier. The IPNB object contains the NBAP link configuration

1

1

1

1

1

1

1

1

1

1

1

1

1

1 Mobile Device Control

1

1

16

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

This parameter is used for generating the SCTP port numbers for the C-NBAP and D-NBAP The DSCP (Differentiated Services Code Point) for the NBAP signalling traffic. This parameter defines the destination IP address for the control plane connections at the This parameter specifies the identification of the related WBTS. This value is just for your The Differentiated Services Code Point (DSCP) for Background UMTS traffic class. The The Differentiated Services Code Point (DSCP) for Conversational UMTS The parameter defines the origin of the last configuration action affecting the object.Identifier for the Quality of Service settings for the Iu Interface.The Differentiated Services Code Point (DSCP) for Interactive UMTS traffic class with The Differentiated Services Code Point (DSCP) for Interactive UMTS traffic class with The Differentiated Services Code Point (DSCP) for Interactive UMTS traffic class with The Differentiated Services Code Point (DSCP) for Streaming UMTS traffic class. The AAL2 Path Type (ITU-T Q.2630.2) signaling within the ALCAP ERQ over the Iu-CS interface The DRX cycle length is used for the CN domain to count paging occasions for The code that uniquely identifies the Release version of the Core Network connected to This parameter determines whether or not IMSI attach and detach are allowed. This parameter is a structure that contains the NRIMinForCSCN and NRIMaxForCSCN This parameter indicates the maximum value of the NRI value range that is used in CS CN This parameter indicates the minimum value of the NRI value range that is used in CS CN The timeout value, in decihours (6 min), for periodic location updating. Given only for This parameter is used to identify if the CN node is used as "a default CN node" when the Flexible GlobalCNId (Global Core Network index) is defined for each CN node max 32. This parameter defines the Core Network Identity of the CN connected to the Iu Unique country identification. MCC consists of three digits. MCC together with MNC Unique network identification within country. MNC consists of two or three digits. This parameter defines whether 2 or 3 digits are used in Mobile Network Code.This parameter defines the origin of the last configuration action affecting the object.This parameter is the identifier for the IUCS object containing the MGW specific This parameter defines the delay that takes place before the Iu link state change is handled This parameter defines the amount of cells to which the SIB information is updated The parameter defines the timer to phase the system information message sending after This parameter describes the state of the Iu interface of the CN Node connected to

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1 Admission Control

1

25 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1

1

1

1

1

1

1

1 SIB18

1

1

This parameter is used for alternative CN node selection.This parameter defines the minimum UDP port value that can be used for RTP port allocation.Network indicator defines the signalling network to which the signalling point belongs.This parameter identifies whether the Core Network supports the relocation of SRNC or RTCP protocol usage for all the new calls for one Iu-CS.The code that uniquely identifies the signalling point in the signalling network.This parameter specifies the maximum time for Reset procedure in the RNC.This parameter specifies a guard period in the RNC before sending a RANAP:RESET This parameter is a timer that is used to determine when the additional level of traffic reduction in This timer is used to determine when the Core Network overload can be considered The DestIPAddressCS attribute with the IPNetmaskCS parameter forms a The IPBasedRouteId refers to the logical IP Based Route entity configured in the IP The IPNetmaskCS with the DestIPAddressCS attribute forms a destination IP subnet The IPQM identification gives the reference to the IPQM object used for the CS CN. The This parameter defines the origin of the last configuration action affecting the object. This parameter is the identifier for the IUCSIP object containing Destination IP Identifier of the operator for the Inter Circle Roaming feature. The operator could be either This parameter gives the operator a name of the corresponding ICR operator. The operator This parameter contains the identifier of the PLMN of an ICR Operator. The operator This parameter defines the unique country identification. MCC consists of three digits. This parameter defines the unique network identification within a country. MNC consists This parameter defines whether 2 or 3 digits are used in Mobile Network Code. When this This parameter defines the origin of the last configuration action affecting the object. This parameter is the identifier for the Iu Operator informationThis parameter defines the length (in bits) of the NRI parameter to be used in the CS CN This parameter defines the length (in bits) of the NRI parameter to be used in the PS CN This parameter defines the MSC allocated NRI value to be used in load redistribution. The This parameter defines the SGSN allocated NRI value to be used in load redistribution. The This parameter defines the percentage weight value of each operator in Multi-Operator Core A Public Land Mobile Network is uniquely identified by its PLMN identity. PLMNid Unique country identification. MCC consists of three digits. MCC together with MNC Unique network identification within country. MNC consists of two or three digits.

1

3

1 Handover Control

1 Handover Control

1 Handover Control


1

1 Handover Control

1

1

1

1

1

1

1

1

1

1

1

1

1

1

16

1

1

1

1

1

1

1

1

1

This parameter defines whether 2 or 3 digits are used in Mobile Network Code.The parameter uniquely identifies the shared Public Land Mobile Network to which the The parameters Shared area mobile country code and Shared area mobile network code The parameters Shared area mobile country code and Shared area mobile network code The parameter defines whether 2 or 3 digits are used in the shared area mobile network code.This parameter defines the DRX cycle length used for CN domain to count paging occasions The code that uniquely identifies the Release version of the Core Network connected to This parameter provides Cell_FACH state Serving RNC Relocation Support of the PS Core This parameter is used to identify if the CN node is used as "a default CN node" when the Flexible This parameter is defined for each CN node max 32. This parameter describes the Core Network Identity of the CN connected to the Iu Unique country identification. MCC consists of three digits. MCC together with MNC Unique network identification within country. MNC consists of two or three digits. This parameter defines whether 2 or 3 digits are used in Mobile Network Code.The parameter defines the origin of the last configuration action affecting the object.This parameter defines the core network object id. It contains connection settings towards a This parameter defines the delay that takes place before the Iu link state change is handled The parameter defines the amount of cells to which the SIB information is updated The parameter defines the timer to phase the system information message sending after This parameter describes the state of the Iu interface of the CN Node connected to This parameter is used for alternative CN node selection.Network indicator defines the signalling network to which the signalling point belongs.This parameter is a structure that contains parameters NRIMinForPSCN and This parameter indicates the maximum value of the NRI value range that is used in the PS CN This parameter indicates the minimum value of the NRI value range that is used in the PS CN In Operation Mode I, it is possible to have combined CS and PS side paging via SGSN. This parameter identifies whether the Core Network supports the relocation of SRNC or The code that uniquely identifies the signalling point in the signalling network.The timer is set when an RANAP:SRNS Data Forward Command message (or an This parameter specifies the maximum time for Reset procedure in the RNC.This parameter specifies a guard period in the RNC before sending an RANAP:RESET This parameter is a timer which is used to determine when the additional level of traffic

1

1

1

1

1

1

1

1

1 Handover Control

1

1

1

1

1

1

1

1

1 Admission Control

1

1 Handover Control

1

1

1

1

1

1 Admission Control

1

1

1

1

1

1

This timer is used to determine when the Core Network overload can be considered to be The DestIPAddressPS attribute with the IPNetmaskPS parameter forms a The IPBasedRouteId refers to the logical IP Based Route entity configured in the IP The IPNetmaskPS with the DestIPAddressPS attribute forms a destination IP subnet The IPQM identification gives the reference to the IPQM object used for the PS CN. The This parameter defines the origin of the last configuration action affecting the object. This parameter is the identifier for the IUPSIP object containing list of SGSN IP address and AAL2 Path Type (ITU-T Q.2630.2) signaling within the ALCAP ERQ over the Iur interface This parameter provides the Cell_FACH state Serving RNC Relocation Support of the neighbour This parameter defines the DSCP allocation for the high priority traffic for the IP Iur interface. The DSCP for the NRT HSPA traffic (UMTS TC: Interactive, background) at Iur interface.The DSCP (DSCP, RFC2574) for the PS NRT R99 DCH traffic (UMTS traffic classes: This parameter defines the Maximum Threshold value for HSUPA congestion handling in a This parameter defines the midpoint threshold value for HSUPA congestion handling in This parameter defines the minimum threshold value for HSUPA congestion handling in This parameter enables the HSDPA Congestion Control for selected Iur connections. If the This parameter provides the HSDPA UL Frame Protocol Control traffic to DSCP mapping at Iur This parameter enables / disables HS-DSCH and E-DCH MAC-d flow setup over Iur-This parameter provides the HSUPA DL Frame Protocol Control traffic to DSCP mapping at Iur This parameter indicates if the Neighbouring RNW Element supports I-BTS Sharing or not.The IPBasedRouteId refers to the logical IP Based Route entity configured in the IP The parameter defines the origin of the last configuration action affecting the object.This parameter identifies the IUR object containing the neighbor RNC specific connection This parameter allows configuration of the interface to the neighboring RNC in a This parameter indicates a user plane procedure support of the Iur connection. This This parameter defines the maximum bit rate of the NRT HS-DSCH MAC-d flow over Iur-This parameter defines the minimum UDP port number that can be allocated at call setup This parameter identifies the neighbor RNC. A unique identification for an RNC node within the Network indicator defines the signalling network to which the signalling point belongs.This parameter identifies whether a neighbouring RNC supports the relocation of SRNC or The code that uniquely identifies the signalling point in the signalling network.The code that uniquely identifies the Release version of the neighbouring RNC.

4

1

1

1

1 Handover Control

1

1

1 Packet Scheduler

1

1

1

1

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

Neighbouring PLMN identity is used to globally identify the neighbouring RNC.Unique country identification. MCC consists of three digits. MCC together with MNC Unique network identification within country. MNC consists of two or three digits. This parameter defines whether 2 or 3 digits are used in Mobile Network Code.This parameter indicates whether the neighboring WCDMA Controller Node is a 3G RNC or an The attribute defines if the RAN1096 Transport Bearer Tuning feature is activated for scaling the This parameter defines the maximum probability of Congestion Indication sending at the maximum This parameter indicates if the neighbouring RNC supports 3GPP RNSAP: Radio Link Congestion This parameter defines the offset value to be added to the corresponding This parameter defines the offset value to be added to the corresponding This parameter defines the offset value to be added to the corresponding This parameter defines the offset value to be added to the corresponding The maximum HS-DSCH FP size parameter defines the maximum FP size that This parameter defines if it is allowed to transfer AMR call to frequency layer which is not This parameter determines the minimum required CPICH RSCP level which the RACH This parameter determines the maximum allowed CPICH RSCP level This parameter defines whether extra weight is given to HSPA load in layer selection for cells This parameter defines how much weight the band capability has in layer selection.Parameter defines how much weight HSPA load has in layer selection.This parameter defines how much weight the preferred layer definitions have in layer This parameter defines how much weight RSCP below or above the threshold has in layer This parameter defines the preferred layers for HSDPA 64QAM capable UE that has only an This parameter defines the preferred layers for HSDPA 64QAM capable UE that has only an This parameter defines the preferred layers for HSDPA 64QAM capable UE that has an AMR This parameter defines the preferred layers for HSDPA 64QAM capable UE that has an AMR This parameter defines the preferred layers for HSDPA 64 QAM capable UE that has This parameter defines the preferred layers for HSDPA 64 QAM capable UE that has This parameter defines the preferred layers for HSDPA 64 QAM capable UE that has a This parameter defines the preferred layers for HSDPA 64 QAM capable UE that has a This parameter defines the preferred layers for CS voice over HSPA capable UE that has This parameter defines the preferred layers for CS voice over HSPA capable UE that has This parameter defines the preferred layers for CS voice over HSPA capable UE that has an

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

1

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

2 Handover Control

1 Handover Control

This parameter defines the preferred layers for CS voice over HSPA capable UE that has an This parameter defines the preferred layers for CS voice over HSPA capable UE that has This parameter defines the preferred layers for CS voice over HSPA capable UE that has This parameter defines the preferred layers for CS voice over HSPA capable UE that has a This parameter defines the preferred layers for CS voice over HSPA capable UE that has a The parameter defines the origin of the last configuration action affecting the object.This parameter defines the preferred layers for Dual Cell HSDPA capable UE that has This parameter defines the preferred layers for Dual Cell HSDPA capable UE that has This parameter defines the preferred layers for Dual Cell HSDPA capable UE that has an This parameter defines the preferred layers for Dual Cell HSDPA capable UE that has an This parameter defines the preferred layers for Dual Cell HSDPA capable UE that has This parameter defines the preferred layers for Dual Cell HSDPA capable UE that has This parameter defines the preferred layers for Dual Cell HSDPA capable UE that has a This parameter defines the preferred layers for Dual Cell HSDPA capable UE that has a This parameter defines the preferred layers for UE that supports both Dual Cell HSDPA and This parameter defines the preferred layers for UE that supports both Dual Cell HSDPA and This parameter defines the preferred layers for UE that supports both Dual Cell HSDPA and This parameter defines the preferred layers for UE that supports both Dual Cell HSDPA and This parameter defines the preferred layers for UE that supports both Dual Cell HSDPA and This parameter defines the preferred layers for UE that supports both Dual Cell HSDPA and This parameter defines the preferred layers for UE that supports both Dual Cell HSDPA and This parameter defines the preferred layers for UE that supports both Dual Cell HSDPA and This parameter defines the preferred layers for F-DPCH capable UE that has only an AMR This parameter defines the preferred layers for F-DPCH capable UE that has only an AMR This parameter defines the preferred layers for F-DPCH capable UE that has an AMR RAB, This parameter defines the preferred layers for F-DPCH capable UE that has an AMR RAB, This parameter defines the preferred layers for F-DPCH capable UE that has only NRT This parameter defines the preferred layers for F-DPCH capable UE that has only NRT This parameter defines the preferred layers for F-DPCH capable UE that has a streaming This parameter defines the preferred layers for F-DPCH capable UE that has a streaming This parameter defines the preferred layers for fast moving UE with AMR RAB or other CS This parameter defines the preferred layers for fast moving UE with AMR RAB or other CS

2 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

1

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

1 Handover Control

8 Handover Control

This parameter defines the preferred layers for fast moving UE with 0...3 PS NRT RAB(s) This parameter defines the preferred layers for fast moving UE with 0...3 PS NRT RAB(s) This parameter defines the preferred layers for HSDPA capable UE that has only an AMR RAB This parameter defines the preferred layers for HSDPA capable UE that has only an AMR RAB This parameter defines the preferred layers for HSDPA capable UE that has an AMR RAB, 0...1 This parameter defines the preferred layers for HSDPA capable UE that has an AMR RAB, 0...1 This parameter defines the preferred layers for HSDPA capable UE that has only NRT RAB(s) This parameter defines the preferred layers for HSDPA capable UE that has only NRT RAB(s) This parameter defines the preferred layers for HSDPA capable UE that has a streaming RAB This parameter defines the preferred layers for HSDPA capable UE that has a streaming RAB This parameter defines the preferred layers for HSPA (HSDPA + HSUPA) capable UE This parameter defines the preferred layers for HSPA (HSDPA + HSUPA) capable UE This parameter defines the preferred layers for HSPA (HSDPA + HSUPA) capable UE This parameter defines the preferred layers for HSPA (HSDPA + HSUPA) capable UE This parameter defines the preferred layers for HSPA (HSDPA + HSUPA) capable UE This parameter defines the preferred layers for HSPA (HSDPA + HSUPA) capable UE This parameter defines the preferred layers for HSPA (HSDPA + HSUPA) capable UE This parameter defines the preferred layers for HSPA (HSDPA + HSUPA) capable UE This parameter is the preferred frequency layer (PFL) object identifier. It is a unique This parameter defines the preferred layers for HSDPA MIMO capable UE that has only an This parameter defines the preferred layers for HSDPA MIMO capable UE that has only an This parameter defines the preferred layers for HSDPA MIMO capable UE that has an AMR This parameter defines the preferred layers for HSDPA MIMO capable UE that has an AMR This parameter defines the preferred layers for HSDPA MIMO capable UE that has only NRT This parameter defines the preferred layers for HSDPA MIMO capable UE that has only NRT This parameter defines the preferred layers for HSDPA MIMO capable UE that has a streaming This parameter defines the preferred layers for HSDPA MIMO capable UE that has a streaming This parameter defines the preferred layers for R99 capable UE that has only an AMR RAB This parameter defines the preferred layers for R99 capable UE that has only an AMR RAB This parameter defines the preferred layers for R99 capable UE that has an AMR RAB, 0...1 This parameter defines the preferred layers for R99 capable UE that has an AMR RAB, 0...1 This parameter defines the preferred layers for R99 capable UE that has only NRT RAB(s)

1 Handover Control

8 Handover Control

1 Handover Control

1

1

1

1

1

1

1 Admission Control

1 Admission Control

1 Admission Control

1 Power Control

1 Power Control

1

1 Power Control

1 Power Control

1 Load Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1

1 Power Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Power Control SIB5

This parameter defines the preferred layers for R99 capable UE that has only NRT RAB(s) This parameter defines the preferred layers for R99 capable UE that has a streaming RAB This parameter defines the preferred layers for R99 capable UE that has a streaming RAB This parameter is the identification string that the BTS uses during the autoconnection This parameter is the identification string that the BTS uses during the autoconnection This parameter defines the unique identifier by which the BTS identifies itself to the Network. This parameter identifies the PREBTS (object for BTS Auto Connection functionality related This parameter specifies the BTS type until it has been commissioned. The Technology This parameter specifies the version information that the BTS should use as swVersion, for This parameter indicates the load amount on the radio interface.This parameter defines how many reconfigurations can be made in sequence.The parameter defines the averaging window for spreading code load. RNC measures This parameter defines the period during which the DL transmitted power has to be This parameter defines the convergence rate (towards the reference power) used for the This parameter defines whether the predefined set of PS NRT DCH bit rates is in use.

Admission Control, Packet Scheduler

When a new BLER for E-DPDCH is under calculation, the Ideal BLER target for E-The parameter is used in normal mode by the WCDMA BTS to calculate the power The parameter defines how the DL load value is determined in Load type Iur Common The parameter structure provides a mapping between the channel coded bit rate before This parameter defines the maximum channel coded bit rate before rate matching to be used This parameter defines the maximum channel coded bit rate before rate matching to be used This parameter defines the maximum channel coded bit rate before rate matching to be used This parameter defines the maximum channel coded bit rate before rate matching to be used This parameter defines the maximum channel coded bit rate before rate matching to be used The parameter defines the maximum puncturing ratio allowed to be used in DL DCHs.The DL inner loop PC step size is used in normal mode by the WCDMA BTS to When a new BLER for DPDCH is under calculation, the Ideal BLER target for DPDCH The parameter defines whether the header compression algorithm shall reorder PDCP The parameter defines the largest number of compressed non-TCP headers that may be Compressed UDCP/IP or TCP/IP headers may not be sent more than the number of seconds This parameter defines the safety margin for transmitted power that is used when Admission Defines the gain factor for the control part of a PRACH message.

1

1 Power Control

1 Power Control

1 Power Control


1 Power Control

1 Power Control

1 Power Control

1 Power Control

1 Admission Control

1 Admission Control

1 Admission Control

1

1 Admission Control

1 Power Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Power Control

1 Admission Control

1 Admission Control

1

1 Admission Control

1 Power Control

1 Load Control

1

1

1 Admission Control

1

1 Power Control

1 Power Control

1 Admission Control

Defines the gain factor for the control part of a PRACH message when the data part symbol Defines the gain factor for the control part of a PRACH message when the data part symbol Defines the gain factor for the control part of a PRACH message when the data part symbol Defines the gain factor for the control part of a PRACH message when the data part symbol Defines the gain factor for the data part of a PRACH message.Defines the gain factor for the data part of a PRACH message when the data part symbol Defines the gain factor for the data part of a PRACH message when the data part symbol Defines the gain factor for the data part of a PRACH message when the data part symbol Defines the gain factor for the data part of a PRACH message when the data part symbol This parameter defines the HSDPA Discard Timer value for the Common MAC Flow This parameter controls the reset of the MAC-ehs reordering functionality value of the The parameter defines whether the header compression function of the PDCP is employed This parameter defines the identifier of the host operator for Inter Circle Roaming feature. The This parameter enables/disables the feature Load based AMR codec mode Defines a time period (in terms of a number of slots) during which the accumulated power This timer defines the maximum time that BTS, cell, local cell group or traffic termination point The parameter defines the largest UDCP/IP or TCP/IP header size in octets that may be This parameter defines the maximum number of re-attempts the RNC can perform when When RNC calculates a new reference power for base stations, it is not updated to the base The parameter defines the maximum Context Identifier (CID) value for non-TCP connections. The parameter defines the length of the uplink DPCCH power control preamble period. The The parameter defines the downlink power control range in relation to the maximum


The parameter defines the minimum period for consecutive RRC UL TFC control messages The reference power (proportional to a cell's CPICH power) is defined by choosing the largest The parameter sets absolute limit for uplink noise autotuning compared to PrxNoise The parameter defines the origin of the last configuration action affecting the object. This parameter is the identifier for the RNAC object.The parameter defines the number of frames after the PC preamble period during which the The timer is used for inactivity detection of the signalling link in CELL_DCH state. The Step Size for DCH BLER is a weighting coefficient which defines how big the DCH BLER Step Size for EDCH BLER is a weighting coefficient which defines how big the EDCH The parameter defines the maximum Context Identifier (CID) value for TCP connections. The

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1

1 Power Control

1 Power Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 MIB

1 MIB

1

1

1

1

This parameter defines the multiplier that is used to multiply the Transfer delay received This parameter defines whether or not the zero size transport block of a DCH is input to the L1 The parameter structure provides a mapping between the channel coded bit rate before This parameter defines the maximum channel coded bit rate before rate matching to be used This parameter defines the maximum channel coded bit rate before rate matching to be used This parameter defines the maximum channel coded bit rate before rate matching to be used This parameter defines the maximum channel coded bit rate before rate matching to be used This parameter defines the maximum channel coded bit rate before rate matching to be used This parameter defines the maximum channel coded bit rate before rate matching to be used The parameter defines the maximum puncturing ratio allowed to be used in UL DCHs.This parameter defines the minimum value of the uplink scrambling code.First slot after the transmission gap: uplink DPCCH power calculation is performed This RNC based parameter is used by the UE when in compressed mode. The Recovery Defines the value of the parameter Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject Defines the value of the Wait Time included in the RRC: RRC Connection Reject MCC (Mobile Country Code) part of Common PLMN Id. Common PLMN Id is used to This parameter defines MNC (Mobile Network Code) part of Common PLMN Id. Common This parameter defines whether 2 or 3 digits are used in Mobile Network Code. MNC (Mobile This parameter specifies the threshold for connection establishment retries The parameter defines the confidence interval to interpret statistically where downlink BLER is This parameter sets the timer value for the emergency call redirect feature. The emergency


1

1

1

1 SIB1

1 SIB1

1

1

1

1

1

1

1

1

1

1

1

1 Admission Control

1

1 SIB3

130

1 SIB11, SIB11bis

1 SIB12

1 SIB15

1 SIB18

1

1 SIB1

1 SIB2

1 SIB3

1

1 SIB5

1 SIB6

This parameter defines an extended Cell_FACH state inactivity supervision time used by This parameter enables and disables the LCS Support in the Drift RNC feature. If this feature is The operator can enable or disable the LCS functionality with this parameter. If the The MSActivitySupervision timer is used in the RRC states CELL_PCH and This counter is used to define the maximum number of retransmissions of the This counter is used to define the maximum number of retransmissions of the This counter is used to define the maximum number of retransmissions of the This parameter defines the last successfully used IP address of the O&M Server.This parameter defines the IP address of the primary O&M Server. This parameter defines the time period when the shutdown criteria for low traffic have to be fulfilled This parameter defines the time that at least one active cell in one Power Saving Mode (PWSM) This parameter defines an interval between the first connected mode paging procedure and This parameter defines an interval between the first repeated and the second repeated paging The timer is used for supervising a reception of a RANAP procedure (RAB assignment The parameter defines the origin of the last configuration action affecting the object.This parameter specifies the RNC (OMU) IP address that is needed to establish certain This parameter can be used for identification of the RNC. The maximum length of the name is 15 This parameter defines whether PS domain RT services are available in the RNC or not. RT Length of traffic restriction period in RNC when 'Radio Network Access Regulation A unique identification for an RNC node within the UTRAN. The RNC identifier together with This parameter indicates the RNW configuration management related optional features which The priority of the System Information Block 11, which is used by the scheduling The priority of the System Information Block 12, which is used by the scheduling The parameter defines the priority of the System Information Block 15, which is used The priority of the System Information Block 18, which is used by the scheduling This parameter defines the priority of the System Information Block 19, which is used The priority of the System Information Block 1, which is used by the scheduling The priority of the System Information Block 2, which is used by the scheduling The priority of the System Information Block 3, which is used by the scheduling The priority of the System Information Block 4, which is used by the scheduling The priority of the System Information Block 5, which is used by the scheduling The priority of the System Information Block 6, which is used by the scheduling

1 SIB7

1

1

1

1

1 SIB1

1 SIB1

1 SIB1

1 SIB1

1 SIB1

1 SIB1


1 SIB1

1 SIB1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

The priority of the System Information Block 7, which is used by the scheduling This parameter specifies the secondary OMS IP address in RNC. The parameter can be used This parameter identifies the used OMS.This parameter specifies if the automatic OMS switchover is in use or if RNC/ADA is forced to This parameter is a trigger for the OMS switchover procedure in RNC/ADA.This timer is used to define the time interval after which UE will resend CELL This timer is used to define the time interval after which UE will resend UE CAPABILITY The periodic cell update/URA update timer (MS timer).The timer for transition to idle mode, when the timer T305 has expired, and the MS detects an This timer is used to define the time interval after which UE will resend RRC The timer for supervising successful connection establishment in case of an inter-RAT cell re-The RRC connection re-establishment timer used for service-types allowing notably shorter This timer is started when the UE detects an "out of service area" in URA_PCH or This timer is started when the T316 expires and the UE detects an "out of service area". This parameter defines the ending point of the receiving window. DL data frames are This parameter defines the ending point of the receiving window. DL data frames are This parameter defines the ending point of the receiving window. DL data frames are This parameter defines the ending point of the receiving window. DL data frames are This parameter defines the ending point of the receiving window. DL data frames are This parameter defines the ending point of the receiving window. DL data frames are This parameter defines the ending point of the receiving window. DL data frames are This parameter defines the starting point for the receiving window supported by BTS. DL This parameter defines the starting point for the receiving window supported by BTS. DL This parameter defines the starting point for the receiving window supported by BTS. DL This parameter defines the starting point for the receiving window supported by BTS. DL This parameter defines the starting point for the receiving window supported by BTS. DL This parameter defines the starting point for the receiving window supported by BTS. DL This parameter defines the starting point for the receiving window supported by BTS. DL The parameter defines the target horizontal accuracy for Subscriber Trace related location The parameter defines the priority of Subscriber Trace triggered location requests. The RNC The parameter defines the target vertical accuracy for Subscriber Trace related location This parameter defines how soon the RNC generates a Subscriber Trace location request

1

1


1 Packet Scheduler

1 Packet Scheduler

1


1


1

1

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1

1 Handover Control

1

1 Admission Control


1 Packet Scheduler

1

1 Packet Scheduler

1

1 Packet Scheduler

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

A parameter that defines the confidence interval to interpret statistically where an uplink BLER is This timer is used on MAC -c to detect idle periods on data transmission (NRT RBs The timer is set after a DCH for a signalling link is allocated in the RRC connection setup phase If the parameter is enabled (1), AMR service can be used simultaneously with If the parameter is enabled (value 1), AMR service can be used simultaneously with Parameter defines whether or not direct activation modifications are updated to the RNC uses this parameter to decide whether it is allowed to use the CCCH logical This parameter defines whether or not compressed mode is used on the system

Admission Control, Handover Control, Packet SchedulerThe parameter defines if

it is allowed to move the UE directly from Cell_PCH to Cell_DCH This parameter allows the usage of the RANAP cause value 'User Inactivity' in the RANAP: This parameter is used by the user (operator) to enable the capacity increase in the control Parameter defines whether DCH bit rates of the user are balanced. If the balancing is applied, This parameter indicates if DCH scheduling over Iur is supported by SRNC or notThe parameter is used to activate or deactivate the dynamic link optimisation This parameter is used to switch "On" and "Off" the Flexible Upgrade of NRT Data Rate and This parameter defines whether the UE in idle mode may detect the presence of an E-UTRA This parameter activates the directed emergency call inter-system handover feature. If the This parameter enables/disables the redirect feature for emergency calls to GSM This parameter enables/disables the use of feature Flexible RLC and use of MAC-ehs in Operator can activate/ de-activate Fast Dormancy functionality with the parameter. This parameter switches the functionality of the Flexible Upgrade of the NRT DCH Data Rate This parameter controls, on the system level, whether compressed mode by HLS ½ (single


This parameter defines whether the usage of the 16 kbps UL DCH return channel is allowed for This parameter defines whether the HSDPA 48 users per cell feature is in use. This parameter enables/disables the use of the HSDPA Dynamic Resource Allocation The parameter enables/disables serving HS-DSCH cell change and SHO of the This parameter enables/disables the use of HSPA Inter-RNC Cell Change feature. The This parameter enables/disables the use of Extension Of HSPA Over Iur feature in RNC.This parameter enables/disables the use of ISHO Cancellation feature in the RNC.This parameter indicates if SRNC supports ISHO during Iur Mobility.This parameter activates the Intelligent Directed Emergency Call Inter-system Handover The parameter controls the release of the Iu-PS connection after the 3G/2G inter-system

1 MIB

1

1 Packet Scheduler

1 Packet Scheduler

1

1 Admission Control

1 Power Control

1

1

1

1 Admission Control

1

1

1

1

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

The parameter defines if the broadcasted PLMN identity in Master Information Block (MIB) This parameter defines the usage of Multi-Operator Core Network (MOCN) feature.This parameter defines a priority-based scheduling policy.This parameter activates Throughput based optimisation of the PS algorithm feature. This parameter determines whether the cell shutdown is allowed with drifting UEs or not. The parameter determines whether the post-verification is used in the downlink chip and This parameter defines whether Power Balancing is used or not.The parameter enables/disables the use of the direct resource allocation for HSPA. It


The parameter defines the origin of the last configuration action affecting the object. This parameter is the identifier for the RNFC object.This parameter defines whether RRC connection setup for R99 UEs is allowed to This parameter defines whether or not a compressed mode is allowed for the pure This timer defines whether it is allowed to maintain an inactive signalling connection This parameter is used only when the Wireless Priority SErvice feature is enabled. When the


This parameter enables/disables the use of Wireless Priority Service (WPS) feature.


This parameter defines the Allocation and Retention Priority (ARP) specific weights that are This parameter defines weight for the ARP value 1. This parameter defines weight for the ARP value 2. This parameter defines weight for the ARP value 3. This parameter defines activation time when the SRBs mapped on E-DCH/HS-DSCH is in The Continuous Packet Connectivity parameters for NRT with 10 ms TTI on E-DCH define how The parameter defines the CPC Optimization objective for UEs supporting and using The parameter defines the number of subframes after an HS-DSCH reception during The parameter defines the CQI feedback cycle for HSDPA when the CQI reporting is not The parameter defines the number of subframes after an HS-SCCH reception or after The parameter defines the number of consecutive E-DCH TTIs without an E-DCH The parameter defines the length of MAC DTX Cycle in subframes. This is a pattern of time Th parameter defines E-DCH inactivity time in TTIs, after which the UE can start E-DCH The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 1 is The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 2 is The parameter is used to define the HS-SCCH reception pattern (UE DRX Cycle) length in The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter determines in slots the length of the long preamble associated Continuous Packet Connectivity parameters for NRT with 2 ms TTI on E-DCH.The parameter defines the CPC Optimization objective for UEs supporting and using The parameter defines the number of subframes after an HS-DSCH reception, during The parameter defines the CQI feedback cycle for HSDPA when the CQI reporting is not The parameter defines the number of subframes after an HS-SCCH reception or after The parameter defines the number of consecutive E-DCH TTIs without an E-DCH The parameter defines the length of MAC DTX Cycle in subframes. This is a pattern of time The parameter defines E-DCH inactivity time in TTIs after which the UE can start E-DCH The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 1 is The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 2 is The parameter is used to define the HS-SCCH reception pattern (UE DRX Cycle) length in The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter determines in slots the length of the long preamble associated Continuous Packet Connectivity parameters for Streaming with 10 ms TTI on E-DCH.The parameter defines the CPC Optimization objective for UEs supporting and using The parameter defines the number of subframes after an HS-DSCH reception during The parameter defines the CQI feedback cycle for HSDPA when the CQI reporting is not The parameter defines the number of subframes after an HS-SCCH reception or after The parameter defines the number of consecutive E-DCH TTIs without an E-DCH The parameter defines the length of MAC DTX Cycle in subframes. This is a pattern of time The parameter defines E-DCH inactivity time in TTIs after which the UE can start E-DCH The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 1 is The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 2 is The parameter is used to define the HS-SCCH reception pattern (UE DRX Cycle) length in The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter determines in slots the length of the long preamble associated Continuous Packet Connectivity parameters for Streaming with 2 ms TTI on E-DCH.The parameter defines the CPC Optimization objective for UEs supporting and using

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

The parameter defines the number of subframes after an HS-DSCH reception during The parameter defines the CQI feedback cycle for HSDPA when the CQI reporting is not The parameter defines the number of subframes after an HS-SCCH reception or after The parameter defines the number of consecutive E-DCH TTIs without an E-DCH The parameter defines the length of MAC DTX Cycle in subframes. This is a pattern of time The parameter defines E-DCH inactivity time in TTIs after which the UE can start E-DCH The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 1 is The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 2 is The parameter is used to define the HS-SCCH reception pattern (UE DRX Cycle) length in The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter determines in slots the length of the long preamble associated Continuous Packet Connectivity parameters for Voice over HSPA with 10 ms TTI on E-The parameter defines the CPC Optimization objective for UEs supporting and using The parameter defines the number of subframes after an HS-DSCH reception during The parameter defines the CQI feedback cycle for HSDPA when the CQI reporting is not The parameter defines the number of subframes after an HS-SCCH reception or after The parameter defines the number of consecutive E-DCH TTIs without an E-DCH The parameter defines the length of MAC DTX Cycle in subframes. This is a pattern of time The parameter defines E-DCH inactivity time in TTIs after which the UE can start E-DCH The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 1 is The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 2 is The parameter is used to define the HS-SCCH reception pattern (UE DRX Cycle) length in The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter determines in slots the length of the long preamble associated Continuous Packet Connectivity parameters for Voice over HSPA with 2 ms TTI on E-The parameter defines the CPC Optimization objective for UEs supporting and using The parameter defines the number of subframes after an HS-DSCH reception during The parameter defines the CQI feedback cycle for HSDPA when the CQI reporting is not The parameter defines the number of subframes after an HS-SCCH reception or after The parameter defines the number of consecutive E-DCH TTIs without an E-DCH

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Packet Scheduler

1 Admission Control

1 Handover Control

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1

1

1 Admission Control

1

1 Packet Scheduler

1

The parameter defines the length of MAC DTX Cycle in subframes. This is a pattern of time The parameter defines E-DCH inactivity time in TTIs after which the UE can start E-DCH The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 1 is The parameter defines the UL DPCCH burst length in subframes when UE DTX Cycle 2 is The parameter is used to define the HS-SCCH reception pattern (UE DRX Cycle) length in The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter defines the UL DPCCH burst pattern length in subframes for UE DTX The parameter determines in slots the length of the long preamble associated This parameter defines the coverage of SRBs on HSPA within the HSPA serving cell. This This parameter defines the coverage of the E-DCH TTI 2 ms within the HSPA serving cell. This This parameter defines the coverage area of the E-DCH TTI 2ms within the HSPA serving cell. This parameter defines the coverage area of the SRBs on HS-DSCH within the HSPA serving Parameter determines whether RNC primarily activates DC-HSDPA or MIMO for the UE, that This parameter defines the HSDPA Discard Timer value for the HS-DSCH MAC-d flow of the This parameter determines the time that must be waited after an E-DCH to DCH channel This parameter defines the size of the sliding averaging window for the throughput This parameter defines the low throughput threshold for the throughput This parameter defines the low throughput time to the trigger timer for the throughput This parameter defines the low throughput time to the trigger timer for the throughput This parameter determines the maximum number of HARQ retransmissions This parameter determines the maximum number of HARQ retransmissions This parameter determines the maximum number of HARQ retransmissions This parameter determines the maximum number of HARQ retransmissions This parameter defines the traffic classes (TC) and traffic handling priorities (THP) that can The parameter defines, in radio frames, how long the DTX/DRX is disabled after a The parameter defines, in radio frames, how long the DTX/DRX is disabled after a The parameter determines the minimum interval between two consecutive Fractional


This parameter defines the traffic classes (TC) and traffic handling priorities (THP) that can


This parameter defines the Establishment Cause values when the Rel99 DCH allocation is This parameter defines the E-DCH maximum bitrate in relation to RAB parameter UL/DL This parameter defines the factor for calculating the E-DCH maximum bit rate from the maximum This parameter defines the E-DCH maximum bitrate in relation to RAB parameter UL/DL

1

1

1 Handover Control

1 Handover Control

1

1 Packet Scheduler

1 Handover Control

1 Packet Scheduler

1 Packet Scheduler

1 Admission Control

1 Handover Control

1 Handover Control

1 Packet Scheduler

1 Packet Scheduler

1

1 Admission Control

1 Admission Control

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

This parameter defines the E-DCH maximum bitrate in relation to RAB parameter UL/DL This parameter determines the reporting period of the CPICH Ec/No measurement Parameter determines the absolute CPICH Ec/No threshold for the serving HS-DSCH cell The parameter determines the time period for calculation of the maximum number of This parameter determines the maximum allowed measured CPICH Ec/No This parameter defines the initial bit rate for the scheduling of the HSDPA associated UL The parameter determines the maximum number of repetitive serving HS-This parameter defines the minimum allowed uplink bit rate for the HSDPA associated UL This parameter defines whether the peak rate of MAC-d flow, the peak rate of NRT RB mapped Parameter is applicable to the HSDPA static resource allocation. It is ignored in the case of Parameter enables/disables diversity handover of the stand-alone signalling The parameter determines the maximum allowed difference between the The parameter determines the initial bit rate for scheduling of the HSDPA associated UL The parameter determines the minimum allowed bit rate in the uplink that can be This parameter determines the time that must be waited after an HS-DSCH to DCH HSDSCHGuardTimerLowThroughput is a UE-specific timer. It is started after a release of This parameter defines the traffic classes (TC) and traffic handling priorities (THP) which This parameter is used to define Nominal Bit Rates (NBR) for NRT connections mapped to This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Admission Control

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Admission Control

1 Admission Control

1 Admission Control

1 Packet Scheduler

1 Admission Control

1 Packet Scheduler

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the Nominal Bit Rate used in downlink for those NRT RABs that This parameter defines the Nominal Bit Rate used in uplink for those NRT RABs that are This parameter defines the period for adjustment (upgrade/downgrade) for This parameter determines the value for the Happy bit delay condition information The parameter determines a period of time during which the HS-DSCH allocation is The parameter defines how many inactive NRT users are targeted in RT-over-NRT procedure. The parameter defines the factor for maximum number of HSPA users when preventive The parameter defines how long inactive CPC user that benefits from battery consumption The parameter defines how long inactive CPC user that does not benefit from battery The parameter defines how long inactive non CPC user that benefits from battery The parameter defines how long inactive non CPC user that does not benefit from battery This parameter defines the averaging window size for the throughput measurement of the This parameter defines the low throughput threshold of the throughput This parameter defines the low throughput time necessary to trigger the timer of the throughput This parameter defines the low throughput time necessary to trigger the timer of the throughput This parameter defines the low utilisation threshold of the throughput This parameter defines the low utilisation time to trigger the timer of the throughput This parameter defines the low utilisation time to trigger the timer of the throughput The parameter can be used to restrict the maximum bit rate of NRT MAC-d flow. The This parameter defines the maximum buffering time of the voice frames in RNC when CS voice This parameter defines the maximum buffering time of the voice frames in RNC when CS voice This parameter defines the Max CS delay value for the maximum buffering time of the CS

1 Admission Control

1 Admission Control

1

1

1

1

1 Admission Control

1 Admission Control

1 Packet Scheduler

1 Packet Scheduler

1 Admission Control

1 Packet Scheduler

1

1

1 Admission Control

1 Admission Control

1

1

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

This parameter determines the maximum number of HARQ retransmissions This parameter determines the maximum number of HARQ retransmissions Parameter allows operators to adjust MAC-es reordering buffer wait time. Online The parameter allows operators to adjust MAC-es reordering buffer wait time for NRT The parameter allows operators to adjust MAC-es reordering buffer wait time for NRT This parameter allows you to adjust the MAC-es reordering buffer wait time between the values This parameter determines the Maximum Set of E-DPDCHs when the CS This parameter determines the Maximum Set of E-DPDCHs when the CS This parameter is used to define the minimum BTS HW allocation for NRT RB with streaming This parameter defines periodicity for Scheduling Info (SI) in case that the BTS type This parameter defines the HARQ power offset value for the E-DCH MAC-d flow of the CS This parameter defines the power offset for Scheduling Info (SI).The parameter defines the origin of the last configuration action affecting the objectThis parameter is the identifier for the RNHSPAobject.This parameter defines the value of the HSDPA re-ordering release timer T1 for the HS-DSCH This parameter defines the value of the HSDPA re-ordering release timer T1 for the Common This parameter defines the length of the transmission gap pattern for WCDMA inter-

Handover Control, Packet Scheduler

This parameter defines the length of the transmission gap pattern for WCDMA inter-


This parameter structure defines the bit rate thresholds for the maximum uplink user bit This parameter defines the bit rate threshold for the maximum uplink user bit rate of the RAB This parameter defines the bit rate threshold for the maximum uplink user bit rate of the RAB This parameter defines the bit rate threshold for the maximum uplink user bit rate of the RAB This timer defines the time in case of resource shortage/congestion where DCH/DCH This parameter defines the traffic class and traffic handling priority specific weight values This parameter defines the weight value for HSDPA Dynamic Resource Allocation and This parameter defines the weight value for HSDPA Dynamic Resource Allocation and This parameter defines the weight value for HSDPA Dynamic Resource Allocation and This parameter defines the weight value for HSDPA Dynamic Resource Allocation and This parameter defines the traffic class and traffic handling priority specific weight values This parameter defines the weight value for HSDPA Dynamic Resource Allocation and This parameter defines the weight value for HSDPA Dynamic Resource Allocation and This parameter defines the weight value for HSDPA Dynamic Resource Allocation and

1 Packet Scheduler

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1 Handover Control

1

1 Handover Control

1 Handover Control

1

1 Power Control


1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

This parameter defines the weight value for HSDPA Dynamic Resource Allocation and This parameter identifies the Measurement Control Parameter Set (FMCI object) which This parameter identifies the Measurement Control Parameter Set (FMCS object) which This parameter identifies the parameter set (HOPI object) which controls the inter-frequency This parameter identifies the parameter set (HOPS object) which controls the intra-The timer is set when the first Cell Update message due to 'cell reselection' is received Directed RRC connection setup for HSDPA layer (from non-HSDPA layer to HSDPA Parameter tells the number of the authorised network list which is used as a When this parameter is enabled and the Directed RRC connection setup for This parameter is used to define if the available HSDPA power is taken into account in the This parameter defines the minimum allowed difference for the CPICH EcNo differences This parameter enables or disables the quality deterioration report from UL OLPC controller With parameter "FastDormCpcPriority" operator can change Fast Dormancy and This parameter determines the threshold value for the UE's active set change to detect that This parameter determines the time period for evaluating the active set change This parameter determines the threshold value for the UE's complete active set cell UTRAN-to-GAN handover method makes use of an RF channel number (ARFCN) and UTRAN-to-GAN handover method makes use of an RF channel number (ARFCN) and UTRAN-to-GAN handover method makes use of an RF channel number (ARFCN) and This parameter determines the starting slot number of the transmission gap inside


This parameter indicates whether an inter-RAT handover to GSM is allowed for circuit This parameter indicates whether an inter-RAT handover to GSM is allowed for circuit This parameter indicates whether an inter-RAT handover (cell change) to GSM/GPRS is This parameter indicates whether an inter-RAT handover (cell change) to GSM/GPRS is This parameter describes the services that are supported by HSPA Capability Based This parameter determines the averaging window for the periodical CPICH This parameter determines the reporting period of the CPICH Ec/No measurement, Parameter determines the minimum interval between serving HS-DSCH cell changes due This parameter is used to define the threshold (number of HSDPA users) for load sharing The parameter determines the averaging window for the periodical UL The parameter determines the filtering coefficient of the UL SIRerror measurement Parameter determines the reporting period of the dedicated UL SIRerror measurement,

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

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1 Handover Control

1

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1 Handover Control

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1

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The parameter determines the level of the UL SIRerror of the serving cell, which The parameter determines the required level of the UL SIRerror in the target cell in order This parameter determines the maximum allowed difference between the This parameter defines an offset which is applied to the DRNC cells in the case of This parameter defines an offset deducted from the UL SIR error measurement, This parameter defines all the single and multi- rab combinations that are supported by I-BTS.This parameter defines the minimum NRT DCH allocation time in a pure NRT connection until a


This parameter defines the absolute threshold which is used by the UE to trigger the reporting This parameter determines a period of time during which Multi-band load balancing This parameter specifies the maximum allowed number of Cell Reselections in the This parameter specifies the maximum number of ISHO Cancellations that are allowed for a This parameter for Multiple BSIC Identification indicates if the feature is used on This parameter defines the measurement filter coefficient for the common load


This parameter defines the measurement hysteresis time for the common load


This parameter defines the load threshold for the common load measurements of the


This parameter defines the preferred frequency band under the RNC. This band is preferred This parameter structure is used in the target RNC of the relocation procedure. It defines


This parameter is used in the target RNC of the relocation procedure. It defines which received






This parameter structure is used in the target RNC of the relocation procedure. It defines








The parameter defines the origin of the last configuration action affecting the object. This parameter is the identifier for the RNMOBI objectThis parameter defines whether a non-active load measurement of a certain inter-frequency


This parameter defines the preferred RAT or WCDMA layer for the background PS NRT


This parameter defines the preferred RAT or WCDMA layer for the conversational CS


This parameter defines the preferred RAT or WCDMA layer for the conversational CS


This parameter defines the preferred RAT or WCDMA layer for the conversational PS RT


This parameter defines the preferred RAT or WCDMA layer for the conversational PS


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1 Handover Control

1 Handover Control

1

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1

1 Handover Control

1

1 Handover Control

1 Packet Scheduler

1

1 Packet Scheduler

This parameter defines the preferred RAT or WCDMA layer for the interactive PS NRT data


This parameter defines the preferred RAT or WCDMA layer for the streaming CS non-


This parameter defines the preferred RAT or WCDMA layer for the streaming PS RT data


This parameter defines whether service- or load-based handovers are performed for the
















HSDPA layering for UEs in common channels from HSDPA layer to HSDPA layer in the cell In state transition from Cell_FACH to Cell_DCH, the UE is transferred to the This parameter defines the length of transmission gap pattern for GSM inter-RAT


This parameter defines the length of transmission gap pattern for WCDMA inter-


This parameter defines the length of transmission gap pattern for GSM inter-RAT
















This parameter specifies the maximum time for the protection of the overall Relocation This parameter specifies the maximum time for the Relocation Preparation procedure in The parameter defines the reporting interval for UE Quality Measurement when This parameter defines the maximum transmission power level a reference UE can use. If the uplink SIR target has reached the maximum, and the uplink SIR Target This parameter defines the absolute threshold which is used by the UE to trigger the reporting Parameter defines the offset value that is added to the activation time, which RNC has When any other value than zero is set to the CellDCHtestTmr, this value is used instead of This parameter defines how long the DRNC may queue a PS capacity request after the DRNC

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This parameter defines how long an uplink capacity request can stay in the queue before This parameter defines together with the RNP parameters DCHUtilUpperDowngradThis parameter defines the sliding measurement window size for the high throughput This parameter defines the threshold for the high throughput measurement.This parameter defines the time allowed to elapse between the moment when the This parameter defines the lower sliding measurement window size for the allocated This parameter defines the lower sliding measurement window size for the NRT DCH This parameter defines the lower sliding measurement window size for the NRT DCH This parameter defines the lower sliding measurement window size for the NRT DCH This parameter defines the lower sliding measurement window size for the NRT DCH This parameter defines the lower sliding measurement window size for the NRT DCH This parameter defines the target lower downgrade bit rate and with the This parameter defines the target lower downgrade data rate for the NRT DCH whose This parameter defines the target lower downgrade data rate for the NRT DCH whose This parameter defines the target lower downgrade data rate for the NRT DCH whose This parameter defines the target lower downgrade data rate for the NRT DCH whose This parameter defines the target lower downgrade data rate for the NRT DCH whose This parameter defines the period of the time between timing of the lower throughput goes This parameter defines the period of the time between timing of the lower throughput goes This parameter defines the period between timing of the lower throughput goes below This parameter defines the period of the time between timing of the lower throughput goes This parameter defines the period of the time between timing of the lower throughput goes This parameter defines the period of the time between timing of the lower throughput goes This parameter defines the period of time during which downgrading the allocated DCH bit rate of This parameter defines the release sliding measurement window size for uplink and This parameter defines the release threshold for the release throughput measurement of the This parameter defines the release threshold for the release throughput measurement of the This parameter defines the period of the time between timing of the release throughput goes This parameter defines the upper sliding measurement window size for the allocated This parameter defines the upper sliding measurement window size for the NRT DCH This parameter defines the upper sliding measurement window size for the NRT DCH This parameter defines the upper sliding measurement window size for the NRT DCH

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1 Admission Control

1

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This parameter defines the upper sliding measurement window size for the NRT DCH This parameter defines the upper sliding measurement window size for the NRT DCH This parameter defines the target upper downgrade bit rate and, together with the This parameter defines the target upper downgrade data rate for the NRT DCH whose This parameter defines the target upper downgrade data rate for the NRT DCH whose This parameter defines the target upper downgrade data rate for the NRT DCH whose This parameter defines the target upper downgrade data rate for the NRT DCH whose This parameter defines the target upper downgrade data rate for the NRT DCH whose This parameter defines the period of the time between timing of the upper throughput goes This parameter defines the period of the time between timing of the upper throughput goes This parameter defines the period of the time between timing of the upper throughput goes This parameter defines the period of the time between timing of the upper throughput goes This parameter defines the period of the time between timing of the upper throughput goes This parameter defines the period of the time between timing of the upper throughput goes The parameter determines a period of time during which a downgrade due to The parameter is used to define the DL transmission power level that triggers the dynamic This parameter defines a factor that determines the minimum time between two This parameter defines the HSDPA Discard Timer value for the Common MAC Flow This parameter controls the reset of the MAC-ehs reordering functionality value of the This parameter indicates the delay between two consecutive PS NRT DCH downgrade This parameter defines whether inactivity detection for streaming radio bearers is The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after

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The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after The time indicating how long the radio and transmission resources are reserved after Parameter defines how users over Iur-interface are handled in the Drift RNC during congestion. This parameter defines Radio Access Bearer (RAB) specific priorities that are used in RAN to This parameter defines priority for Radio Access Bearers having Traffic Class Background with This parameter defines priority for Radio Access Bearers having Traffic Class Background with This parameter defines priority for Radio Access Bearers having Traffic Class Background with This parameter defines Scheduling Priority Indication (SPI) for conversational type This parameter defines priority for DTCH data traffic on HS-FACH for PS RBs.This parameter defines priority for Radio Access Bearers having Traffic Class Interactive and This parameter defines priority for Radio Access Bearers having Traffic Class Interactive with This parameter defines priority for Radio Access Bearers having Traffic Class Interactive with This parameter defines priority for Radio Access Bearers having Traffic Class Interactive with This parameter defines priority for Radio Access Bearers having Traffic Class Interactive with This parameter defines priority for Radio Access Bearers having Traffic Class Interactive with This parameter defines priority for Radio Access Bearers having Traffic Class Interactive with This parameter defines priority for Radio Access Bearers having Traffic Class Interactive with This parameter defines priority for Radio Access Bearers having Traffic Class Interactive with This parameter defines priority for Radio Access Bearers having Traffic Class Interactive with This parameter defines priority for SRBs on E-DCH and SRBs on HS-DSCH.This parameter defines priority for Radio Access Bearers having Traffic Class Streaming and This parameter defines priority for Radio Access Bearers having Traffic Class Streaming and This parameter defines priority for Radio Access Bearers having Traffic Class Streaming and The parameter defines the origin of the last configuration action affecting the objectThis parameter is the identifier for the RNPS object. This parameter defines the highest priority used by PS NRT RAB that can be used as a target This parameter defines the highest priority used by PS NRT RAB that can be used as a target

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1 Admission Control

1 Admission Control

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1 Admission Control

This parameter defines the highest priority used by PS NRT RAB that can be used as a target In expiry of the test timer CellDCHtestTmr, the MS is switched to Cell_FACH state when This parameter indicates the time (in seconds) during which MAC-D of RNC is forbidden to This parameter indicates the time (in seconds) during which UE is forbidden to send any This parameter defines the threshold of data in the RLC buffer of RB in bytes which triggers This parameter defines the threshold of data in the RLC buffer of RB in bytes which triggers a This parameter defines the threshold of data in the RLC buffer of RB in bytes which triggers This parameter defines the threshold of data in the RLC buffer of RB in bytes which triggers This parameter defines the threshold of data in the RLC buffer of RB in bytes which triggers This parameter defines the threshold of data in the RLC buffer of RB in bytes which triggers This parameter defines the threshold of data in the RLC buffer of RB in bytes which triggers This parameter defines the threshold of data in the RLC buffer of RB in bytes which triggers The parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold The parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold The parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold The parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold The parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold The parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold The parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold The parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold This parameter defines, in bytes, the threshold of data in the RLC buffers of SRB0, SRB1, SRB2, This parameter defines, in ms, the period of time between the timing of event detection and the This parameter defines, in ms, the period of time between the timing of event detection and the This parameter defines time to trigger value to activate and deactivate UL loaded state (UL This parameter defines the maximum overbooking of the AM RLC buffer for all RAB This parameter defines the maximum overbooking of the AM RLC buffer for all RAB This parameter defines the retransmission parameters for the AM RLC of the PS This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC This parameter defines the value of the RLC protocol parameter MaxMRW for the AM This parameter defines the value of the RLC protocol parameter MaxRST for the AM RLC This parameter defines the maximum status reporting period of the AM RLC in the relation This parameter defines the minimum status reporting period of the AM RLC for the PS

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This parameter defines the value of the RLC protocol parameter Poll_PDU for the AM This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter shows the polling and status reporting triggers and the RLC timers for the This parameter defines the AM RLC Round Trip Times (RTT) for the UL data transfer with RACH This parameter defines the AM RLC Round Trip Times (RTT) for the DL data transfer with HS-This parameter defines the maximum AM RLC buffer of the UE. The buffer can be used in the This parameter defines the maximum AM RLC buffer of the UE, which has reported the value This parameter defines the maximum AM RLC buffer of the UE, which has reported the value This parameter defines the maximum AM RLC buffer of the UE, which has reported the value This parameter defines the maximum AM RLC buffer of the UE, which has reported the value This parameter defines the maximum AM RLC buffer of the UE, which has reported the value This parameter defines the maximum AM RLC buffer of the UE which has reported the value This parameter defines the maximum AMRLC buffer of the UE, which has reported the value This parameter defines the maximum AM RLC buffer of the UE, which has reported the value This parameter defines the maximum AM RLC buffer of the UE, which has reported the value This parameter defines the maximum AM RLC buffer of the UE, which has reported the value This parameter defines the maximum AM RLC buffer of the UE, which has reported the value This parameter defines the retransmission parameters for the AM RLC of the PS This parameter defines the minimum number for the AM RLC status reports that are received This parameter defines the AMD PDU retransmission filtering period in relation to the This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC This parameter defines the value of the RLC protocol parameter MaxMRW for the AM The parameter defines the value of the RLC protocol parameter MaxRST for the AM RLC This parameter defines the maximum status reporting period of the AM RLC in relation to This parameter defines the minimum status reporting period of the AM RLC for the PS This parameter defines the minimum value of the RLC protocol parameter Poll_PDU for This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter activates and deactivates the polling and status reporting triggers and This parameter defines the retransmission parameters for the AM RLC of the SRB 13.6 This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC

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This parameter defines the maximum status reporting period of the AM RLC in relation to This parameter defines the minimum status reporting period of the AM RLC for the SRB This parameter defines the value of the RLC protocol parameter Poll_PDU for the AM This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM The parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter enables to activate and deactivate the polling and status reporting This parameter defines the retransmission parameters for the AM RLC of the SRB 3.4 This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC The parameter defines the maximum status reporting period of the AM RLC in relation to The parameter defines the minimum status reporting period of the AM RLC for the SRB 3.4 This parameter defines the value of the RLC protocol parameter Poll_PDU for the AM This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter enables to activate and deactivate the polling and status reporting This parameter defines the retransmission parameters for the AM RLC of the PS This parameter defines the minimum number for the AM RLC status reports that will be This parameter defines the SDU discard time when the timer-based SDU discard is applied This parameter defines the AMD PDU retransmission filtering period in relation to the This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC The parameter defines the value of the RLC protocol parameter MaxMRW for the AM This parameter defines the value of the RLC protocol parameter MaxRST for the AM RLC This parameter defines the maximum status reporting period of AM RLC in relation to the This parameter defines the minimum status reporting period for the PS streaming radio This parameter defines the minimum value of the RLC protocol parameter Poll_PDU for This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter enables to activate and deactivate the polling and status reporting This parameter defines the retransmission parameters for the AM RLC of the PS This parameter defines the minimum number for the AM RLC status reports that will be This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC This parameter defines the value of the RLC protocol parameter MaxMRW for the AM This parameter defines the value of the RLC protocol parameter MaxRST for the AM RLC

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This parameter defines the maximum status reporting period of the AM RLC in relation to This parameter defines the minimum status reporting period of the AM RLC for the PS This parameter defines the minimum value of the RLC protocol parameter Poll_PDU for This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter enables to activate and deactivate the polling and status reporting This parameter defines the retransmission parameters for the AM RLC of the PS This parameter defines the minimum number of the AM RLC status reports that will be This parameter defines the SDU discard time when the timer-based SDU discard is applied This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC This parameter defines the value of the RLC protocol parameter MaxMRW for the AM This parameter defines the value of the RLC protocol parameter MaxRST for the AM RLC This parameter defines the maximum status reporting period of the AM RLC in relation to This parameter defines the minimum status reporting period of the AM RLC for the PS This parameter defines the minimum value of the RLC protocol parameter Poll_PDU for This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter enables the activation and deactivation of the polling and status This parameter defines the retransmission parameters for the AM RLC of the PS This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC This parameter defines the value of the RLC protocol parameter MaxMRW for the AM This parameter defines the value of the RLC protocol parameter MaxRST for the AM RLC This parameter defines the maximum status reporting period of the AM RLC in the relation This parameter defines the minimum status reporting period of the AM RLC for the PS This parameter defines the value of the RLC protocol parameter Poll_PDU for the AM This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter shows the polling and status reporting triggers and the RLC timers for the This parameter defines the retransmission parameters for the AM RLC of the SRB in the This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC This parameter defines the maximum status reporting period in relation to the RLC This parameter defines the minimum status reporting period for the AM RLC of SRB when

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This parameter defines the value of the RLC protocol parameter Poll_PDU for the AM This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter enables to activate and deactivate polling and status reporting triggers This parameter defines the retransmission parameters for the AM RLC of the PS This parameter defines the minimum number for the AM RLC status reports that will be The parameter defines the AMD PDU retransmission filtering period in relation to the This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC This parameter defines the value of the RLC protocol parameter MaxMRW for the AM This parameter defines the value of the RLC protocol parameter MaxRST for the AM RLC This parameter defines the maximum status reporting period of the AM RLC in relation to This parameter defines the minimum status reporting period of the AM RLC for the PS This parameter defines the minimum value of the RLC protocol parameter Poll_PDU for This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter enables to activate and deactivate the polling and status reporting This parameter defines the retransmission parameters for the AM RLC of the PS This parameter defines the SDU discard time when the timer-based SDU discard is applied This parameter defines the minimum number for the AM RLC status reports that will be The parameter defines the AMD PDU retransmission filtering period in relation to the This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC This parameter defines the value of the RLC protocol parameter MaxMRW for the AM This parameter defines the value of the RLC protocol parameter MaxRST for the AM RLC This parameter defines the maximum status reporting period for the AM RLC of the PS This parameter defines the minimum status reporting period of the AM RLC for the PS This parameter defines the minimum value of the RLC protocol parameter Poll_PDU for This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter enables to activate and deactivate the polling and status reporting This parameter defines the relative transmission window sizes of the AM RLC entity in relation to This parameter defines the first transport channel user data rate for the definition of the This parameter assigns the relative transmission window size of the AM RLC to the first transport

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The parameter defines the second transport channel user data rate for the definition of the This parameter assigns the relative transmission window size of the AM RLC to the second This parameter defines the third transport channel user data rate for the definition of the This parameter assigns the relative transmission window size of the AM RLC to the third This parameter defines the fourth transport channel user data rate for the definition of the This parameter assigns the relative transmission window size of the AM RLC to the fourth This parameter defines the fifth transport channel user data rate for the definition of the This parameter assigns the relative transmission window size of the AM RLC to the fifth transport This parameter defines the sixth transport channel user data rate for the definition of the This parameter assigns the relative transmission window size of the AM RLC to the sixth This parameter defines the seventh transport channel user data rate for the definition of the This parameter assigns the relative transmission window size of the AM RLC to the seventh This parameter defines the eighth transport channel user data rate for the definition of the This parameter assigns the relative transmission window size of the AM RLC to the eighth This parameter defines the AM RLC Round Trip Time (RTT) for the data transfer when the radio This parameter defines the AM RLC Round Trip Time (RTT) for the data transfer with the DCH This parameter defines the AM RLC Round Trip Time (RTT) for the data transfer with the DCH This parameter defines the AM RLC Round Trip Time (RTT) for the data transfer with the DCH This parameter defines the AM RLC Round Trip Time (RTT) for the data transfer with the DCH This parameter defines the AM RLC Round Trip Time (RTT) for the data transfer with the DCH This parameter defines the AM RLC Round Trip Time (RTT) for the UL data transferThis parameter defines the AM RLC Round Trip Times (RTT) for the UL data transfer with RACH This parameter defines the AM RLC Round Trip Time (RTT) for the downlink data transfer This parameter defines the AM RLC Round Trip Time (RTT) for the downlink data transfer This parameter defines the AM RLC Round Trip Time (RTT) for the downlink data transfer This parameter defines the Round Trip Time and the retransmission parameters for the AM This parameter defines the AM RLC Round Trip Times (RTT) for the UL SRB data transfer with This parameter defines the value of the RLC protocol parameter MaxDAT for the AM RLC The parameter defines the maximum status reporting period of the AM RLC in relation to The parameter defines the minimum status reporting period of the AM RLC for the SRB on This parameter defines the value of the RLC protocol parameter Poll_PDU for the AM This parameter defines the value of the RLC protocol parameter Poll_SDU for the AM

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1

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1

This parameter defines the value of the RLC protocol parameter Poll_window for the AM This parameter activates and deactivates the polling and status reporting triggers and This parameter defines the transmission window sizes of the AM RLC entities for the signalling This parameter defines the transmission and receiving window sizes of the AM RLC entities This parameter defines the transmission and receiving window sizes of the AM RLC entities This parameter defines the transmission and receiving window sizes of the AM RLC entities This parameter defines the bit rate threshold for the usage of RLC PDU size 656 bits in DL data This parameter defines the minimum number of allocated HS-PDSCH codes that allows the This parameter defines the HS-DSCH signal to interference ratio threshold for the use of The parameter defines the origin of the last configuration action affecting the objectThis parameter is the identifier for the RNRLC object.This parameter determines the SDU discard mode for a radio bearer of the RT PS This parameter defines the SDU discard timer value for the UM RLC entity of the UE when This parameter defines the A2EA address of the RNC. It is used in locating free ATM (AAL2 This parameter structure defines Activity Factors for AMR calls for both DCH and HSPA channel This parameter defines the activity factor for the AMR 12.2 kbps DCH and HSDPA DL bearers. This parameter defines the activity factor for the AMR 12.2 kbps DCH and HSUPA UL bearer. This parameter defines the activity factor for the AMR 5.9 kbps DCH and HSDPA DL bearer. The This parameter defines the activity factor for the AMR 5.9 kbps DCH and HSUPA UL bearer. The This parameter structure defines the Activity Factors for the CS DCH traffic types. The Activity This parameter defines the activity factor for the CS streaming (non-transparent) 14.4 kbps This parameter defines the activity factor for the CS streaming (transparent) 14.4 kbps This parameter defines the activity factor for the CS streaming (non-transparent) 57.6 kbps This parameter defines the activity factor for the CS streaming (transparent) 57.6 kbps This parameter defines the activity factor for the CS conversational (transparent) 64 kbps This parameter defines the activity factor for the CS conversational (transparent) 64 kbps This parameter structure defines activity factors for DCCH traffic types. Activity factors are used This parameter defines the activity factor for the 12.8/13.6 kbps DCCH DL bearer. The activity This parameter defines the activity factor for the 12.8/13.6 kbps DCCH UL bearer. The activity This parameter defines the activity factor for the 1.6/1.7 kbps DCCH DL bearer. The acctivity This parameter defines the activity factor for the 1.6/1.7 kbps DCCH UL bearer. The activity This parameter defines the activity factor for the 3.2/3.4 kbps DCCH DL bearer. The acctivity

1

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1

1

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1

1

1

1

1

1

This parameter defines the activity factor for the 3.2/3.4 kbps DCCH UL bearer. The activity This parameter structure defines activity factors for FACH and RACH traffic types. Activity This parameter defines the activity factor for the FACH-C/C DL bearer and for the HS FACH This parameter defines the activity factor for the FACH-C/I DL bearer. The activity factor value This parameter defines the activity factor for the FACH control UL bearer. The activity factor value This parameter defines the activity factor for the FACH-S DL bearer. The activity factor value 1 This parameter defines the activity factor for the FACH-U DL bearer. The activity factor value 1 This parameter defines the activity factor for the RACH 20.8 kbps UL bearer and for the HS This parameter defines the activity factor for the RACH control DL bearer. The activity This parameter struct contains the attributes for the HSPA (HS-DSCH and E-DCH) transport This parameter defines the activity factor for the RT PS HSDPA (HS-DSCH) transport bearer This parameter defines the activity factor for the RT PS HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for the SRB on HSDPA (HS-DSCH) transport bearer This parameter defines the activity factor for the SRB on HSUPA (E-DCH) transport bearer This parameter structure defines activity factors for NRT DCH traffic types. Activity factors This parameter defines the activity factor for the NRT PS AM 128 kbps DCH DL bearer. The This parameter defines the activity factor for the NRT PS AM 128 kbps DCH UL bearer. The This parameter defines the activity factor for the NRT PS AM 16 kbps DCH DL bearer. The This parameter defines the activity factor for the NRT PS AM 16 kbps DCH UL bearer. The This parameter defines the activity factor for the NRT PS AM 256 kbps DCH DL bearer. The This parameter defines the activity factor for the NRT PS AM 256 kbps DCH UL bearer. The This parameter defines the activity factor for the NRT PS AM 32 kbps DCH DL bearer. The This parameter defines the activity factor for the NRT PS AM 32 kbps DCH UL bearer. The This parameter defines the activity factor for the NRT PS AM 384 kbps DCH DL bearer. The This parameter defines the activity factor for the NRT PS AM 384 kbps DCH UL bearer. The This parameter defines the activity factor for NRT PS AM 64 kbps DCH DL bearer. The This parameter defines the activity factor for the NRT PS AM 64 kbps DCH UL bearer. The This parameter defines the activity factor for the NRT PS AM 8 kbps DCH DL bearer. The This parameter defines the activity factor for the NRT PS AM 8 kbps DCH UL bearer. The This parameter structure defines activity factors for PCH traffic types. Activity factors are used This parameter defines the activity factor for both the 8kbps and 24kbps PCH control UL This parameter defines the activity factor for both the 8kbps and 24kbps PCH DL bearer.

1

1

1

1

1

1

1

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1

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1

This parameter structure defines activity factors for RT PS traffic types. Activity factors are used This parameter defines the activity factor for the RT PS AM 128 kbps DCH DL bearer for This parameter defines the activity factor for the RT PS AM 128 kbps DCH UL bearer for This parameter defines the activity factor for the RT PS UM 128 kbps DCH DL bearer for This parameter defines the activity factor for the RT PS UM 128 kbps DCH UL bearer for This parameter defines the activity factor for the RT PS AM 16 kbps DCH DL bearer for streaming. This parameter defines the activity factor for the RT PS AM 16 kbps DCH UL bearer for streaming. This parameter defines the activity factor for the RT PS UM 16 kbps DCH DL bearer for streaming. This parameter defines the activity factor for the RT PS UM 16 kbps DCH UL bearer for streaming. This parameter defines the activity factor for the RT PS AM 256 kbps DCH DL bearer for This parameter defines the activity factor for the RT PS UM 256 kbps DCH DL bearer for This parameter defines the activity factor for the RT PS AM 32 kbps DCH DL bearer for streaming. This parameter defines the activity factor for the RT PS AM 32 kbps DCH UL bearer for streaming. This parameter defines the activity factor for the RT PS UM 32 kbps DCH DL bearer for streaming. This parameter defines the activity factor for the RT PS UM 32 kbps DCH UL bearer for streaming. This parameter defines the activity factor for the RT PS AM 64 kbps DCH DL bearer for streaming. This parameter defines the activity factor for the T PS AM 64 kbps DCH UL bearer for streaming. This parameter defines the activity factor for the RT PS UM 64 kbps DCH DL bearer for streaming. This parameter defines the activity factor for the RT PS UM 64 kbps DCH UL bearer for streaming. This parameter defines the activity factor for the RT PS AM 8 kbps DCH DL bearer for streaming. This parameter defines the activity factor for the RT PS AM 8 kbps DCH UL bearer for streaming. This parameter defines the activity factor for the RT PS UM 8 kbps DCH DL bearer for streaming. This parameter defines the activity factor for the RT PS UM 8 kbps DCH UL bearer for streaming. This parameter controls RNC echo request sending. If it is enabled, echo requests are sent The low threshold is an AAL2 buffer occupancy threshold in a dedicated VCC, which triggers The low threshold is an AAL2 buffer occupancy threshold in a shared VCC, which triggers The parameter defines the maximum allowed delay caused by AAL2 queueing in a dedicated The parameter defines the maximum allowed delay caused by AAL2 queueing in a shared This parameter defines for how long the erroneous IU-PS interface IP layer is This parameter specifies the Digit Analysis Tree in which the digit analyses for the Iu-CS Tells in which Digit Analysis Tree the digit analyses for the Iub interface are created. This parameter specifies the Digit Analysis Tree in which the digit analyses for the Iur

1

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1

1

This parameter specifies the maximum number of attempts for sending the Echo Request message. This parameter defines the target delay in NRT DCH VCC which the flow control tries to keep The parameter defines the origin of the last configuration action affecting the object. This parameter is the identifier for the RNTRM object.This parameter specifies the Differentiated Services Code Point (DSCP) for GTP This parameter specifies the maximum waiting time for the Echo Request message. The Defines whether the THP1 interactive class type of traffic is treated in a delay or non-delay Defines whether the THP2 interactive class type of traffic is treated in a delay or non-delay Defines whether the THP3 interactive class type of traffic is treated in a delay or non-delay This parameter defines the offset value to be added to the corresponding This parameter defines the offset value to be added to the corresponding This parameter defines the mode of the UL CAC algorithm in the BTS. When the value 0 Defines the used ALC-parameter set for signalling radio bearer on Iub and Iur. There This structure contains the activity factor definitions for the HSPA transport bearer CAC This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSDPA transport bearer CAC reservation based This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC

1

1

1

1

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1

1

This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter defines the activity factor for HSUPA (E-DCH) transport bearer CAC This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information (whether or not the transport bearer should This parameter contains the fallback information for the transport bearer (whether or not the This parameter contains the fallback information for the transport bearer (whether or not the

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1

1

1

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1

This parameter contains the fallback information for the transport bearer (whether or not the This parameter contains the fallback information for the transport bearer (whether or not the This parameter contains the fallback information for the transport bearer (whether or not the This parameter contains the fallback information for the transport bearer (whether or not the This parameter contains the fallback information for the transport bearer (whether or not the This parameter contains the fallback information for the transport bearer (whether or not the This parameter contains the fallback information for the transport bearer (whether or not the This parameter contains the fallback information for the transport bearer (whether or not the The HSPA QoS Priority 4 to Fallback mapping parameter contains the fallback information The HSPA QoS Priority 5 to Fallback mapping parameter contains the fallback information The HSPA QoS Priority 6 to Fallback mapping parameter contains the fallback information The HSPA QoS Priority 7 to Fallback mapping parameter contains the fallback information The HSPA QoS Priority 8 to Fallback mapping parameter contains the fallback information The HSPA QoS Priority 9 to Fallback mapping parameter contains the fallback information The attributes for the ATM transport QoS differentiation mapping are collected within this The parameter contains the mapping information for the CS RAB UTRAN transport bearer setup. The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path

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1

The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup. The AAL2 Path The parameter contains the mapping information for the transport bearer setup for the common The parameter contains the mapping information for the signalling radio bearer UTRAN transport The attributes for the IP transport QoS differentiation mapping are collected within this The parameter contains the mapping information for the CS RAB UTRAN transport bearer. The The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for

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1

2000 Handover Control

1 Handover Control

1 Handover Control

1

1

1

1 Packet Scheduler

1

The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) is specified separately for The differentiated services code point (DSCP, RFC2574) for the signalling radio The parameter defines the origin of the last configuration action affecting the object.This parameter is the TQM object identifier. The TQM object defines the transport bearer This parameter defines the Neighbouring Internet HSPA Adapter Identifier of the IHSPA Identifier of I-HSPA Adapter that supports IBTS Sharing.Identifier of the RNC to which the IHSPA Adapter supporting IBTS Sharing has an Iur This parameter determines the reporting interval that the Node B should use when

Admission Control, Handover Control, Load Control, Packet Scheduler, Power

This parameter determines the reporting interval that Node B should use when


This parameter determines the reporting interval that Node B should use (by default,


This parameter defines the HARQ method that is to be used in the virtual BTS. Possible This parameter indicates how measurement values should be filtered before the measurement

1 Admission Control

1

1

1 Admission Control

1 Admission Control

1 Packet Scheduler

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Packet Scheduler

1 Admission Control

1 Handover Control

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 SIB1

1

1

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Handover Control

1 Handover Control



1 Handover Control

1 Handover Control

1 Power Control

This parameter enables/disables the use of PS RAB Reconfiguration feature. This parameter defines the origin of the last configuration action affecting the VBTS This parameter is the identifier for VBTS Object.The parameter defines the AMR mode sets used in UTRAN for the CS AMR call. The This parameter defines the AMR WB mode sets which are used in UTRAN for the CS AMR This parameter determines the minimum set E-TFCI for E-DCH. A minimum set of E-TFCI This parameter identifies the WRAB object of the connection-based quality control parameter

Admission Control, Load Control, Packet SchedulerThis parameter defines

the bit rate threshold that the maximum allocated user bit rate on This parameter defines the bit rate threshold that the maximum allocated user bit rate in The parameter identifies the measurement control parameter set (FMCG object) The parameter identifies the measurement control parameter set (FMCI object) controlling The parameter identifies the measurement control parameter set (FMCS object) The parameter identifies the parameter set (HOPS object) controlling the intra-The parameter defines the maximum user bit rate allowed in the virtual cell for HSDPA The parameter enables / disables the use of HSDPA in the cell. In order to activate HSDPA The parameter identifies the measurement control parameter set (FMCS object) The parameter enables / disables the use of HSUPA in the cell. In order to activate HSUPA The parameter defines the initial bit rate in the downlink that can be allocated by the PS in The parameter defines the initial bit rate in the uplink that can be allocated by the PS in This parameter contains the Location area code (LAC) of an IBTS cell. The coding of the This parameter defines the maximum downlink user bit rate allowed in a cell for an NRT PS


This parameter defines the maximum uplink user bit rate allowed in a cell for an NRT PS


This parameter determines the planned maximum total uplink symbol rate of the E-The parameter defines the minimum allowed bit rate in the downlink that PS can downgrade to The parameter defines the minimum allowed bit rate in the uplink that PS can downgrade to NRT This parameter identifies the Measurement Control Parameter Set (FMCG object) which This parameter identifies the Measurement Control Parameter Set (FMCI object) which This parameter identifies the Measurement Control Parameter Set (FMCS object) which Defines the parameter set (HOPG object) which controls the inter-RAT handover of a non-real Defines the parameter set (HOPI object) which controls the inter-frequency handover of a This parameter defines the parameter set (HOPS object) which controls the intra-This parameter defines the transmission power of the High Speed Shared Control Channel,


1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1 Handover Control

1 Handover Control



1 Handover Control

1 Handover Control

1 Admission Control

1

1

1

6 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1

1

1

1

1

1

1

1

1 Handover Control

1 Admission Control

This parameter defines the routing area within the location area to which the IBTS cell The parameter identifies the measurement control parameter set (FMCG object) The parameter identifies the measurement control parameter set (FMCS object) The parameter identifies the measurement control parameter set (FMCI object) controlling The parameter identifies the measurement control parameter set (FMCS object) This parameter identifies the parameter set (HOPS object) controlling intra-This parameter controls the usage of the RNSAP:Relocation Commit procedure This parameter identifies the Measurement Control Parameter Set (FMCG object) which This parameter identifies the Measurement Control Parameter Set (FMCI object) which This parameter identifies the Measurement Control Parameter Set (FMCS object) which Defines the parameter set (HOPG object) which controls the inter-RAT handover of a real time Defines the parameter set (HOPI object) which controls the inter-frequency handover of a This parameter defines the parameter set (HOPS object) which controls the intra-This parameter defines whether one, two or four antennas are used in the receiving direction in the This parameter defines the origin of the last configuration action affecting the VCEL This parameter defines the VCEL Object.Parameter is used to identify a group of authorised networks which are considered The parameter contains a PLMN identifier which is considered equal to the home PLMN of the The parameters Authorised Network Mobile Country Code and Authorised Network The parameters Authorised Network Mobile Country Code and Authorised Network The parameter defines whether 2 or 3 digits are used in Authorised Network Mobile Network This parameter indicates the technology that is used in the PLMN.The parameter defines the origin of the last configuration action affecting the object.This parameter can be used for identification of the authorised networks. The maximum length of The C-NBAP ATM interface identifier of the related COCO object. C-NBAP VCCs ATM With this parameter it is possible to change the administrative state of the all WCELs under the The parameter can freely be used for defining any additional numeric or text format The BTS Fallback Enabled control parameter defines whether the HSPA This parameter specifies the BTS O&M IP address that is received when the BTS O&M This parameter defines whether the BTS supports HSDPA or HSPA compressed


This parameter defines if the inter-frequency blind handover can be done without quality check This parameter defines a BTS radio interface capability: the support of the Blind Transport

1

1

1

1

1 Admission Control

1

1

1 Packet Scheduler

1

1

1

1

1

1

1

1

1

1

1

1

1

1 Packet Scheduler

1 Admission Control

1

1 Admission Control

5 Admission Control

1 Admission Control

1 Admission Control

1

1 Admission Control

1 Admission Control

1

This parameter is used for activating and deactivating the broadcast of SIB15. This parameter enables the user to activate Broadcasting of SIB15.2. To be able to This parameter enables the user to activate Broadcasting of SIB15.3. To be able to This parameter identifies the Connection Configuration object for the Iub interface in the This parameter defines BTS radio interface capability: the number of DCHs per radio link. Online information about the operational status of the O&M DCN link for the WBTS. The disabled This parameter contains online information about the security status of the O&M DCN link for the This parameter defines the use of transmitted code power of radio link averaging in RNC for The differentiated services code point (DSCP, RFC2574) that is used for the common The differentiated services code point (DSCP, RFC2574) that is used for non-real-time The differentiated services code point (DSCP, RFC2574) that is used for the NRT R99 The differentiated services code point (DSCP, RFC2574) that is used for the PS This parameter determines the reporting interval that the Node B should use when


This parameter determines the reporting interval that Node B should use when


This parameter determines the reporting interval that Node B should use (by default,


This parameter defines the Maximum Threshold value for HSUPA congestion handling in a The parameter defines the Maximum Threshold value for HSUPA congestion handling in This parameter defines the midpoint threshold value for HSUPA congestion handling in The parameter defines the midpoint threshold value for HSUPA congestion handling in This parameter defines the minimum threshold value for HSUPA congestion handling in The parameter defines the minimum threshold value for HSUPA congestion handling in This parameter defines the HARQ method that is to be used in this BTS. Possible choices This parameter defines whether the feature HSDPA 14 Mbps per User is enabled or not in This parameter enables the HSDPA Congestion Control for selected BTSs. If the parameter This parameter defines the HSDPA percentage weight value for Iur users in case of the Inter This parameter defines the HSDPA Operator Id and HSDPA percentage weight value for each Identifier of the operator for HSDPA capacity split in case of the Inter Circle Roaming for This parameter defines the HSDPA percentage weight value for each operator in case of the The DSCP for the HSDPA UL Frame Protocol Control direction traffic.This parameter defines the hysteresis for each cell handled in the BTS HSDPA scheduler, in This parameter defines the HSDPA user amount threshold for each cell handled in the BTS The DSCP for the HSUPA DL Frame Protocol Control direction traffic.

1 Packet Scheduler

1 Admission Control

1

1

1

1 Load Control

1 Load Control

1 Load Control

1 Handover Control

1

1

1 Packet Scheduler

1

1 Admission Control

1 Admission Control

1 Packet Scheduler

1

1

1

1

1

1

1

1

1 Admission Control

1 Packet Scheduler

1 Packet Scheduler

1

1

1

1

1

This parameter defines whether HSUPA 3, 12, 24, or 60 Users per BTS is enabled or not.This parameter defines whether the feature Inter Circle Roaming is enabled or not in the The IPBasedRouteIdIub refers to the logical IP Based Route entity configured in the IP The IPBasedRouteIdIub2 refers to a second logical IP Based Route The IPNB identification gives the reference to the IPNB object used for the WBTS. The IPNB Parameter defines the threshold of the transport CAC (Connection Access Parameter defines the threshold of the transport CAC (Connection Access Parameter defines the threshold of the transport CID (Connection ID) This parameter defines the priorized forced handover type in block resource request with This parameter defines the user-plane traffic types that need to be protected in case of a The parameter indicates the transport media used for the user plane connections with air This parameter defines the period how often PS can perform load control actions in a certain cell.This parameter defines for how long R99 traffic is buffered in MDC (Macro Diversity This parameter defines BTS radio interface capability: the maximum supported user data This parameter defines BTS radio interface capability: the maximum supported user data This parameter determines the maximum number of E-DCH allocations in the This parameter indicates how measurement values should be filtered before the measurement The minimum UDP port number that can be allocated at common channel or call setup for This parameter defines the used communication mode for NodeB via NBAP interface. To This parameter specifies the WN release (for example, WN3.0) of the WBTS in the WCDMA.This parameter specifies the BTS model in the WCDMA. The NE type is reported to the RNC The parameter defines the allowed number of MAC-d flows on a VCC if the shared HSDPA This parameter enables/disables the use of PS RAB Reconfiguration feature. This parameter defines if the RAN1096 Transport Bearer Tuning feature is activated for scaling the This parameter defines whether the use of RLC PDU size 656 in DL data transfer is allowed in the This parameter determines the uplink and downlink load measurement averaging This parameter defines the use of transmitted code power of radio link averaging in RNC for The use of Power Saving Mode for BTS should be controlled in BTS level. By this This parameter defines the starting hour for cell shutdown window in Power Saving Mode This parameter defines the starting minute for cell shutdown window in Power Saving Mode This parameter defines the ending hour for the cell shutdown window in Power Saving Mode This parameter defines the ending minute for the cell shutdown window in Power Saving

1

1

1

1

1

1

1

1

1

1 Packet Scheduler

1

1

1

1

5 Admission Control

1 Admission Control

1 Admission Control

1

1

1

1 Admission Control

1 Admission Control

1 Admission Control

1

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1

1 Admission Control

1

1

This parameter defines the starting hour for cell shutdown window in Power Saving Mode This parameter defines the starting minute for cell shutdown window in Power Saving Mode This parameter defines the ending hour for cell shutdown window in Power Saving Mode This parameter defines the ending minute for cell shutdown window in Power Saving Mode This parameter defines the days on which the remaining cells should be shut down at This parameter defines the maximum probability of Congestion Indication sending at the maximum The parameter defines the maximum probability of Congestion Indication sending at the maximum PrxAlpha defines the type of measurement filter used for the total received wideband

Admission Control, Load Control, Packet SchedulerThe parameter defines

the number of frames used for long term averaging at the BS of


the period - in terms of received total interference power PtxAlpha defines the type of measurement filter for the total transmitted power

Admission Control, Load Control, Packet SchedulerParameter defines the

maximum code channel output power for the power control dynamic

Admission Control, Packet Scheduler, Power ControlParameter defines the

minimum code channel output power for the power control dynamic

Admission Control, Packet Scheduler, Power ControlThe parameter defines

the number of frames used for long term averaging at the BS of


Operator Id and the R99 percentage weight value for each operator in Identifier of the operator for R99 capacity split in case of the inter circle roaming feature. The This parameter defines the R99 percentage weight value for each operator in case of ICR. This parameter defines the reporting period of the PRACHs in a BTS. The BTS may report

Admission Control, Load Control

This parameter indicates the BTS’s role in an RF Sharing Configuration. When RF Sharing is The parameter defines the reporting period of Radio Resource Indication messages,

Admission Control, Load Control

The parameter defines the average UL DCH data rate in relation to its maximum allocated The parameter defines the average UL DCH data rate in relation to its maximum allocated The parameter defines the average UL DCH data rate in relation to its maximum allocated The parameter defines the average UL DCH data rate in relation to its maximum allocated The parameter defines the average UL DCH data rate in relation to its maximum allocated The parameter defines the average UL DCH data rate in relation to its maximum allocated The parameter defines the average UL DCH data rate in relation to its maximum allocated The parameter defines the average UL DCH data rate in relation to its maximum allocated The parameter defines the average UL DCH data rate in relation to its maximum allocated The parameter defines the average UL DCH data rate in relation to its maximum allocated The parameter defines the release timer for the shared HSDPA allocation in minutes. This parameter defines whether the Satellite Iub feature is enabled or disabled for the BTS. If

1 Packet Scheduler

1

1

1

1

1

1

1

1

1

1

1

1

1

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 SIB3

1 SIB5

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1

1

1 Admission Control

This parameter defines the period of the resource allocation for the resource requests of The parameter defines how the VCC selection is done for the shared HSDPA AAL2 allocation This ATM protocol level parameter defines the amount of Iub bandwidth on a VCC allocated for The TQM identification gives the reference to the TQM object used for the WBTS. The TQM The Target Id is reported to the RNC Mediator from the BTS with the BTS O&M interface. The This parameter specifies the offset value to be added to the corresponding This parameter specifies the offset value to be added to the corresponding This parameter specifies the offset value to be added to the corresponding This parameter specifies the offset value to be added to the corresponding The C-NBAP VCI of the related COCO object. C-NBAP VCCs ATM interface id, VPI and VCI The C-NBAP VPI value of the related COCO object. C-NBAP VCCs ATM interface id, VPI The parameter defines the origin of the last configuration action affecting the object.This parameter identifies the WBTS uniquely under its controlling RNC.This parameter can be used for identification of the WCDMA BTS (Node B). The maximum length This parameter determines the downlink load measurement averaging window size This parameter determines the uplink load measurement averaging window size This parameter defines the averaging window size for the estimated transmitted non HSPA This parameter defines the averaging window size for the estimated received interference 'Access Class Barred list' information defines whether access is barred for each of the 16 AICH transmission timing defines the delay between the reception of a PRACH access slot This parameter defines the overload threshold for the downlink spreading code load. This parameter defines the overload threshold for the transmission load. The Load Based This parameter defines the offset that is used to calculate the overload threshold of This parameter defines an offset that is used to calculate the overload threshold of This parameter defines the coefficient which is used to calculate the overload threshold of This parameter defines the offset which is used to calculate the threshold for code This parameter defines the target threshold for the downlink spreading code load. The downlink This parameter defines the target threshold for the transmission load. The Load Based AMR The parameter defines an offset that is used to calculate a target threshold of an average This parameter defines the offset that is used to calculate the target threshold of This parameter defines the offset that is used to calculate the target threshold of PtxTotal. This parameter defines the underload threshold for the downlink spreading code load.

1 Admission Control

1 Admission Control

1 Admission Control

1

1 SIB19

1

1 Admission Control

1 SIB5

1 SIB5

1

1 Admission Control

1 Handover Control SIB11, SIB12, SIB11bis


1 Admission Control

1

1 SIB3

1 Packet Scheduler

1 Admission Control

1 Admission Control

1

1 Admission Control

1 Admission Control

1

1



1

1

1 SIB3, SIB4

1

1

1 Handover Control

This parameter defines the underload threshold for the transmission load. The Load Based This parameter defines the coefficient that is used to calculate the underload threshold of This parameter defines the offset that is used to calculate the underload threshold of This parameter defines the offset that is used to calculate the underload threshold of PtxTotal. This parameter defines the absolute priority level for the cell which is used in the absolute Each logical cell recource in the RNC has an administrative state, which the operator can With this parameter it is possible to change the PIC state of a cell from Disabled to Enabled or The preamble part in a PRACH channel carries one of the 16 different orthogonal complex An RACH sub-channel defines a sub-set of the total set of access slots. There are a total of 12 This parameter defines whether the alternative scrambling code is allowed to be used in


The parameter indicates which PIC pool the cell belongs to. The default value of the parameter is This parameter determines the minimum required CPICH EcNo level that the inter-This parameter determines the minimum required CPICH RSCP level that the inter-This parameter enables / disables the use of RRC connection setup on Common This parameter defines Carrier to interference ratio for Fractional DPCH (F-DPCH). The


This parameter identifies the cell within an RNC.This parameter enables / disables the use of Continuous Packet Connectivity in This parameter defines threshold for CPICH Ec/No to determine whether RRC This parameter defines the threshold for CPICH RSCP to determine whether RRC The parameter defines the offset of the primary CPICH transmission power, and the


The parameter defines the AMR mode sets used in UTRAN for the CS AMR call. The This parameter defines the AMR WB mode sets which are used in UTRAN for the CS AMR Identifies congestion management object (CMOB) which contains Circuit Switched Domain Reserved CTCH capacity only for the CBS messages with category High. A certain This parameter defines the threshold value which is compared to the CPICH Ec/No This parameter defines the threshold value which is compared to the CPICH RSCP This parameter defines the difference in the DL linkloss in relation to the UL linkloss when an

Admission Control, Power Control

The parameter can be freely used for defining any additional numeric or text format The parameter defines whether the cell is barred.This parameter defines the maximum range of the cell, that is, the maximum distance from This parameter defines the quality measure (CPICH Ec/No, CPICH RSCP) to be indicated in

SIB3, SIB11, SIB12, SIB4

This parameter is used to give weight to the cell in making the HSDPA layering decision. A

1 SIB3, SIB4

1

1

1

1 Packet Scheduler

1 Handover Control

1 Packet Scheduler

1 Handover Control

1 Handover Control

1 Admission Control

1 Power Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Handover Control

1 Handover Control

1

1 Packet Scheduler

1 Packet Scheduler

1

1

1

1

1

1

1

1

Defines whether the cell is reserved for operator use. A reserved cell is a cell on which camping is The parameter defines the timer value that triggers code tree optimisation, if it is not The parameter indicates if rearrangement can be applied to a specific cell.The parameter defines the minimum usage of code tree before rearrangement is This parameter defines whether DC-HSDPA and MIMO can be used simultaneously for the The parameter indicates whether or not the DC HSDPA capability based handover is enabled in This parameter indicates whether or not the DC HSDPA feature is enabled in the cell. The parameter identifies the measurement control parameter set (FMCS object) This parameter defines time to trigger value to activate and deactivate HSPA load state due to This parameter defines the number of allocated HS-PDSCH codes that are not allowed to pre-This parameter indicates the DPC Mode Change Support of a cell. If a cell is known not to support This parameter determines the threshold level which the uplink load of the cell may not This parameter determines the threshold level which the uplink load of the source cell This parameter determines the threshold level which the downlink load of the cell may not This parameter determines the threshold level which the downlink load of the source cell Defines the maximum received uplink power decrease in a cell, used when bit rates are This parameter defines the maximum received uplink power increase in a cell, used when the Defines the maximum transmitted downlink power decrease in a cell, used when bit rates This parameter defines the maximum transmitted downlink power increase in a cell, The parameter enables/disables the use of the directed RRC connection setup in the Enables / disables the use of the Directed RRC connection setup for the HSDPA layer in the cell.This parameter defines the E-DCH (HSUPA) capability for a local cell.This parameter determines the minimum set E-TFCI when the 10 ms E-DCH Transport This parameter determines the minimum set of E-TFCI when the 10 ms E-DCH Transport The parameter is used for reporting the HSUPA operational state of a cell.The RAN2482: Enhanced Virtual Antenna Mapping feature improves the This parameter defines whether or not the RAN2482: Virtual antenna mapping This parameter identifies the WRAB object of the connection based quality control parameter set

Admission Control, Load Control, Packet SchedulerThe RAN2482:

Enhanced Virtual Antenna Mapping feature improves the The RAN2482: Enhanced Virtual Antenna Mapping feature improves the The RAN2482: Enhanced Virtual Antenna Mapping feature improves the The RAN2482: Enhanced Virtual Antenna Mapping feature improves the

1

1

1

1 Packet Scheduler

1 Packet Scheduler

1 SIB3, SIB4

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Admission Control

1 Admission Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Packet Scheduler

1 Packet Scheduler

1

1 Admission Control

1

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Admission Control

1 Packet Scheduler

1 Admission Control

1 Packet Scheduler

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

This parameter defines whether code change procedure is performed for Fractional DPCH (F-


This parameter enables / disables the use of Fractional DPCH (F-DPCH) and mapping


This parameter defines the allocation procedure of Fractional DPCH (F-DPCH) in the RRC


The parameter defines the margin for the total throughput of SCCPCH (FACH/PCH) for The parameter defines the threshold for the total throughput of SCCPCH (FACH/PCH) This parameter defines the HCS priority level for a cell. Value 0 indicates the lowest HCS priority This parameter defines the bit rate threshold that the maximum allocated user bit rate on This parameter defines the bit rate threshold that the maximum allocated user bit rate in This parameter defines how many UEs are selected in each period to an HSPA capability This parameter defines the time (in seconds) when the periodical HSPA Capability Based This parameter determines whether the RNC allows the use of 64QAM modulation for This parameter defines whether the HSDPA 64 Users per Cell feature in the cell is enabled or The parameter identifies the measurement control parameter set (FMCG object) The parameter identifies the measurement control parameter set (FMCI object) controlling The parameter identifies the measurement control parameter set (FMCS object) Enables / disables the use of HSDPA layering for UEs in common channel features in the This parameter defines the HSDPA Measurement Power Offset (MPO) signalled The parameter defines the maximum user bit rate allowed in a cell for HSDPA UL DCH return This parameter defines the HSDPA capability for a local cell.This parameter enables or disables the use of HSDPA in the cell.The parameter is used for reporting the HSDPA operational state of a cell.This parameter defines the activity time to the trigger timer used for the activity measurement of This parameter defines the size of the sliding averaging window for the activity This parameter defines the activity threshold for the activity measurement of the HS-The parameter enables / disables the use of HS-FACH in DL in the cell, that is the use of This parameter defines, in ms, the period of time between the timing of event detection and the This parameter defines the Establishment Cause (EC) values which prefer new DL This parameter defines, in bytes, the threshold of data in the RLC buffers of PS RB that triggers This parameter defines an HSDPA bit rate per NRT user in the cell under which the cell is This parameter defines an offset to the maximum transmitted wide band target power This parameter defines an E-DCH bit rate per NRT user in the cell under which the cell is This parameter defines an offset to the maximum received wide band target power that is

1 Handover Control

1 Admission Control

1 Handover Control

1 Handover Control

1

1 Admission Control

1 Admission Control

1 Admission Control

1

1 Packet Scheduler

1 Admission Control

1

1

1 Handover Control

1 Packet Scheduler

1 Packet Scheduler

1 SIB3, SIB4

1 SIB3, SIB4

1 SIB3, SIB4

1 SIB5, SIB6

1 SIB1

1

1

1

1

1

1

1

1

1

1

1

This parameter defines a threshold at which HSUPA resource indications can set the This parameter determines whether the “HSPA 72 users per cell“ feature is enabled in the This parameter defines whether the HSPA Capability Based Handover is enabled in The parameter identifies the measurement control parameter set (FMCS object) This parameter is used to control the use of HSPA QoS features. Prioritization is done This parameter defines the HS-PDSCH code set. If the HSDPA dynamic code allocation The parameter defines the required number of free SF128 channelization codes left This parameter is used to define whether the RNC allows the usage of 16QAM modulation for This parameter enables / disables the use of E-DCH 2ms TTI in the cell.


This parameter enables/disables the use of HSUPA in the cell.This parameter defines the limit for the amount of active HSUPA users in a cell in the process of This cell-specific parameter defines whether the RAN 285 feature 'Multi NRT RABs' This parameter defines the ICR capability for a local cell.The parameter indicates if incoming ISHO from LTE is enabled in the cell or not.The parameter defines the initial bit rate in the downlink that can be allocated by the PS in The parameter defines the initial bit rate in the uplink that can be allocated by the PS in This parameter defines the scaling factor for Treselection, TreselectionPCH and The parameter defines the scaling factor for Treselection, TreselectionPCH and The parameter defines whether intra-frequency cell re-selection is allowed or not when the This parameter defines the value of CBS frame offset of CTCH on FACH.This parameter defines the Location area code (LAC) of a WCDMA cell. The coding of the This parameter defines the threshold for the DL NRT capacity request rejection rate to start

Handover Control, Load Control, Packet SchedulerThis parameter defines

the threshold for the UL NRT capacity request rejection rate to start


the delay between detecting "NRT load based handover state


the delay between detecting "Hard blocking load based handover

Admission Control, Handover Control, Load ControlThis parameter defines

the delay between detecting "Interference load-based handover


the delay between detecting "Downlink spreading code load-


a base load for the hard blocking measurement of the load-based


This parameter defines the threshold for the cell-based hard blocking ratio to start and stop


the hysteresis time for the capacity request rejection rate


the hysteresis time for a hard blocking measurement to start


the hysteresis time for an interference load measurement to start

Admission Control, Handover Control, Load Control

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1 Packet Scheduler

1 Handover Control

1 Packet Scheduler

1

1

1

1

This parameter defines the hysteresis time for a downlink spreading code reservation rate This parameter defines the minimum interactive and background traffic level for the


This parameter defines the number of UEs that are simultaneously in a load-based inter-


This parameter defines the number of UEs that are simultaneously in a load-based inter-RAT


This parameter defines the threshold for the DL interference load to start and stop the activation


the threshold for the UL interference load to start and stop the activation


the threshold for the reservation rate of DL spreading codes to start


an averaging window size for an NRT capacity request rejection rate-


an averaging window size for a hard blocking measurement to stop


an averaging window size for the interference load measurement to


an averaging window size for the DL spreading code


an averaging window size for an NRT capacity request rejection rate-


an averaging window size for a hard blocking measurement to start


an averaging window size for an interference load measurement to


an averaging window size for the DL spreading code

Admission Control, Handover Control, Load ControlThe parameter indicates

if cell re-selection from WCDMA to LTE for idle and connected The Local cell resource is an object which consists of the HW required by one cell for This parameter defines the coverage of SRBs on HSPA within the HSPA serving cell when This parameter defines the coverage of E-DCH TTI 2ms within the HSPA serving cell when This parameter defines if Multi-Band Load Balancing is enabled when inactivity is This parameter defines if Multi-Band Load Balancing is enabled due to mobility in This parameter defines whether Multi-Band Load Balancing is enabled in the RAB This parameter defines whether Multi-Band Load Balancing is enabled for the multi This parameter defines if Multi-Band Load Balancing is enabled in state transition to Parameter defines, whether any external devices such as a TX amplifier or RX amplifier

Admission Control, Power Control

Parameter enables / disables the use of HSDPA MIMO in the cell.This parameter defines whether the MIMO HSDPA Capability Based Handover is This parameter defines whether MIMO and 64QAM modulation can be used simultaneously This parameter defines the maximum downlink user bit rate allowed in a cell for an NRT PS


This parameter defines the maximum uplink user bit rate allowed in a cell for an NRT PS


The parameter defines the maximum amount of code release actions allowed in a code tree This parameter indicates the maximum DL power capability for a local cell in the Node B. The

1

1

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1

1

1

1 Handover Control

1

1

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1

1 SIB1

1 SIB1

1 SIB1

1 SIB1

1 SIB1

1 Packet Scheduler

1 Packet Scheduler

1 SIB3, SIB4

1 SIB5

1 SIB5, SIB6

1 SIB3, SIB4

1 SIB3, SIB4

1 SIB3, SIB4

1 Load Control

1 Handover Control

1 Handover Control


This parameter defines the maximum increment in the measured received wide band


the maximum number of HS-SCCH codes (SF 128) that can be This parameter defines the maximum allowed number of SC HSDPA and DC HSDPA users in This parameter defines the maximum allowed number of HS-DSCH MAC-d flows of SC This parameter determines the maximum number of E-DCH allocations (users This parameter defines the maximum allowed number of SC HSDPA and primary DC HSDPA This parameter defines the maximum allowed number of HS-DSCH MAC-d flows in the cell. This parameter defines the maximum number of UEs that are simultaneously in a


This parameter defines the maximum number of UEs that are simultaneously in a DCH This parameter defines the maximum number of UEs that are simultaneously in an


This parameter defines the maximum number of UEs that are simultaneously in an


This parameter determines the planned maximum total uplink symbol rate of the E-The parameter defines the minimum allowed bit rate in the downlink that PS can downgrade to The parameter defines the minimum allowed bit rate in the uplink that PS can downgrade to NRT This parameter defines if Multiple PLMN List is broadcasted in the cell or not. If RRC CONNECTION REQUEST retransmission counter (MS counter).This parameter defines the maximum number of "in sync" indications received from L1 during This parameter defines the maximum number of "in sync" indications received from L1 during This parameter defines the maximum number of successive "out of sync" indications received This parameter defines the maximum number of successive "in sync" indications received This parameter defines downlink threshold for the sum of the RLC buffer loads of the SRB3 This parameter defines uplink threshold for the sum of the RLC buffer loads of the SRB3 and The parameter defines the maximum number of cell reselections. If the number of cell This parameter defines how many SCCPCHs are configured for the cell.This parameter defines the period of CTCH allocation on FACH carrying CTCH. This This parameter defines the maximum number of cell reselections. If the number of cell The parameter defines the duration for evaluating the allowed amount of cell The parameter defines the cell reselection hysteresis for reverting from UE high-mobility This parameter defines whether the Event E based common measurement is initiated This parameter identifies the Measurement Control Parameter Set (FMCG object) which This parameter identifies the Measurement Control Parameter Set (FMCI object) which Identifies the Measurement Control Parameter Set (FMCS object) which controls

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1

1 Handover Control

1 Admission Control

1 SIB5


1 SIB5

1 SIB5

1 SIB5, SIB6

1


1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

This parameter determines the number of E-DCH allocations that is reserved only for This parameter defines a threshold value for the NRT DCH allocation time in overload control This parameter defines the threshold for an NRT DCH allocation time in an enhanced overload This parameter defines the minimum allocation time granted for an NRT DCH in priority-based This parameter defines the minimum allocation time granted for an NRT DCH in priority-based This parameter defines the minimum allocation time granted for an NRT DCH in priority-based This parameter defines the minimum allocation time granted for an NRT DCH in priority-based This parameter is used for enabling\disabling 24kbps Paging channel at a cell level. This parameter defines the parameter set (PFL object) which controls the preferred frequency Each cell in a PIC pool has one state. There are three different states: 'Disabled', 'Enabled' and The number of Page Indicators that can be paged in one PICH radio frame. Note: When This parameter is used to describe the WCEL size related characteristic in order to This UL required received C/I value is used by the UE to calculate the initial The scrambling code for the preamble part and the message part of a PRACH channel. The maximum number of preambles allowed in one preamble ramping cycle. PRACH Preamble Identifies congestion management object (CMOB) which contains Packet Switched This is the transmission power of the PICH channel. It carries the paging indicators which This parameter defines the limit for DC HSDPA user amount for cell activation decision. This parameter defines the limit for NRT HSDPA amount for cell activation decision.This parameter defines the RT DCH power limit used in cell activation decision.This parameter defines the limit for RT HSDPA amount for cell activation decision.This parameter defines the NRT HSDPA power per user limit for cell activation decision.This parameter defines the RT HSDPA power limit used in cell activation decision.This parameter defines the Power Saving Mode (PWSM) cell group of a cell.This parameter defines the total power limit used in virtual admission control decision.This parameter defines the limit for RT HSDPA and active NRT HSDPA in cell for virtual AC This parameter defines the limit for DC HSDPA user amount for cell shutdown decision.This parameter defines the limit for NRT DCHs in cell to be shutdown.This parameter defines the limit for NRT HSDPA amount for cell shutdown decision.This parameter defines the limit for RT DCHs in cell to be shutdown.This parameter defines the limit for RT HSDPA amount for cell shutdown decision.This parameter defines the NRT HSDPA power per user margin for cell shutdown decision.

1

1

1

1

1 Power Control


1 Power Control

1 Power Control

1 Power Control


1 Admission Control

1 SIB11

1 Admission Control

1 Packet Scheduler

1 Admission Control

1 Packet Scheduler

1 Packet Scheduler

1 Load Control

1

1

1

1 Admission Control

1

1

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Load Control


1 Power Control

1 Power Control

This parameter defines the RT DCH Power limit used in cell shutdown decision.This parameter defines the RT HSDPA power limit used in cell shutdown decision.This parameter defines the shutdown and activation order inside one Power Saving Mode This parameter determines if a remaining cell can be shutdown or not.The power offset between the last transmitted preamble and the control part of The parameter defines the power offset for the TFCI symbols relative to the downlink The parameter defines the power offset for the TFCI symbols relative to the downlink The parameter defines the power offset for the TFCI symbols relative to the downlink The parameter defines the power offset for the TFCI symbols relative to the downlink The power ramp step on PRACH preamble when no acquisition indicator (AI) is detected by the This parameter defines the HSPA configuration in a cell. The parameter identifies the downlink scrambling code of the Primary CPICH (Common Pilot For the interference domain, this parameter defines the minimum capacity that is allowed For the interference domain, this parameter defines the minimum capacity for the For the interference domain, this parameter defines the maximum capacity for the The parameter defines the maximum target wide band power for BTS on original signal The maximum target for received total wide band power in the cell for BTS packet scheduling. The This parameter defines the value of the Measurement Filter Coefficient for the Defines the noise level in the BTS digital receiver when there is no load (thermal noise +


The autotuning algorithm of Uplink noise level (PrxNoise) can be switched on or off.

Admission Control, Load Control, Packet SchedulerThe target value of the

total received power (PrxTarget) can be exceeded by the value

Admission Control, Load Control, Packet Scheduler, Power Control

When adding a WPS call bearer, the estimated received non-controlable power can This parameter defines the target for the total wideband interference power received in a cell.

Admission Control, Handover Control, Packet SchedulerThis parameter defines

the maximum target value for the received total wideband power in

Admission Control, Handover Control, Packet SchedulerThis parameter defines

the maximum allowed target interference level for the UL PS NRT DCH This parameter defines the minimum allowed interference target level for the UL PS NRT DCH This parameter defines the fixed step size in decreasing the target level for UL PS NRT This parameter defines the fixed step size in increasing the target level for UL PS NRT This parameter defines the report periodicity value for the periodic common measurement This is the transmission power of one Aquisition Indicator (AI) compared to CPICH power. If a This parameter defines the transmission power of the High Speed Physical Downlink This parameter defines the transmission power of the High Speed Shared Control Channel

1 Admission Control

1

1

1

1 Packet Scheduler

1 Packet Scheduler

1 Power Control

1 Admission Control

1 Load Control

1

1 Power Control

1 Power Control

1 Power Control

1 Power Control

1 Power Control

1

1

1

1 Admission Control

1 Power Control

1 Admission Control

1

1 Power Control

1 SIB5

1 Power Control

1 Power Control

1 Power Control

1 Power Control

1 Power Control

1

1

1 Admission Control

This parameter defines the maximum transmission power of the cell. The maximum The planned maximum downlink transmission power of a radio link. This parameter is used

Admission Control, Packet Scheduler, Power ControlThis parameter defines

maximum power for TPC bits of Fractional DPCH (F-DPCH). Value of the


This parameter defines minimum power for TPC bits of Fractional DPCH (F-DPCH). Value of the


This parameter defines the threshold of the PtxTotal measurement that indicates high The margin for the total downlink transmission power for downlink channel type selection. This parameter defines the transmission power of the E-DCH HARQ Acknowledgement Parameter defines the maximum allowed HSDPA transmission power. RNC sends the This parameter defines the value of the Measurement Filter Coefficient for the This parameter defines the value by which the total transmitted power (PtxTarget) value can be


the transmission power of the E-DCH Absolute Grant Channel. E-AGCH This parameter defines the transmission power of the E-DCH Absolute Grant Channel. E-AGCH This parameter defines the transmission power of the E-DCH HARQ Acknowledgement This parameter defines the transmission power of the E-DCH Relative Grant Channel. E-RGCH This parameter defines the transmission power of the E-DCH Relative Grant Channel. E-RGCH This parameter defines power offset to E-xxCH power offsets for E-DCH TTI 2 ms case. If E-DCH


This parameter defines the power offset to E-xxCH power offsets for the E-DCH soft


This parameter defines power offset to Fractional DPCH (F-DPCH) power for E-DCH


Parameter is applicable to the HSDPA static resource allocation. It is ignored in the case of This parameter defines the transmission power of the High Speed Shared Control Channel, When adding a WPS bearer, the estimated transmitted non-controllable power can Planned maximum transmitted code power of the radio link for the PS streaming RAB. The

Admission Control, Packet Scheduler, Power ControlThis is the transmission

power of the primary CCPCH relative to the CPICH transmission This parameter is the transmission power of the primary common pilot channel. The P-

Admission Control, Handover Control, Power ControlThis is the transmission

power of the primary synchronisation channel. The power level is The parameter defines the transmission power of the S-CCPCH channel which carries:This is the transmission power of the S-CCPCH channel, which carries a PCH (containing PCCH) The parameter defines the transmission power of the S-CCPCH channel that carries only This parameter defines the transmission power of the SCCPCH channel that carries only a FACH This is the transmission power of the secondary synchronisation channel related to the Primary This is the target value for total transmitted power in a cell. A real-time Radio Access

Admission Control, Handover Control, Packet SchedulerParameter defines the

target scheduling threshold for HSDPA power allocation. It is

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Packet Scheduler

1 Admission Control

1 Admission Control

1 Packet Scheduler

1 Load Control

1 SIB3, SIB4

1 SIB3, SIB4

1 SIB4

1 SIB4

1 SIB3, SIB4

1 SIB4

1 SIB4

1 SIB3, SIB4

1 SIB3, SIB4


1 Admission Control



1 SIB5

1 SIB5, SIB6

1 SIB5

1 Load Control

1 Load Control

1

1

1

1 Load Control

1 Load Control

This parameter defines the adjustment period - in terms of PtxTotal/PtxNonHSPA This parameter defines the maximum allowed target level for DCH packet scheduling when This parameter defines the minimum allowed target level for DCH packet scheduling when This parameter defines the fixed step size for decreasing target level for DCH packet This parameter defines the fixed step size for increasing target level for DCH packet This parameter defines the maximum value for the dynamic target power used for CS This parameter defines the minimum value for the dynamic target power used for CS This parameter defines the threshold for the total downlink transmission power for This parameter defines the report periodicity value for the periodic common measurement This parameter defines the quality threshold level (CPICH Ec/No) for applying prioritised This parameter is used for TDD and GSM cells, and for FDD cells when cell selection and re-The parameter is used for cell selection and re-selection in Cell_FACH.The parameter is used for cell selection and re-selection in Cell_PCH/URA_PCH.This parameter is used for FDD cells when cell selection and re-selection quality The parameter is used for FDD cells when cell selection and re-selection The parameter The parameter is used for cell selection and re-selection in Cell_PCH/URA_PCH.This parameter defines the minimum required quality level in the cell (Ec/No).This parameter defines the minimum required RX level in the cell. The Routing Area Code determines the Routing area within the location area to which the cell The parameter defines the HW capacity reserved for a RACH transport channel in the This parameter defines the inter-frequency measurement quantity for RACH This parameter defines the intra-frequency measurement quantity for RACH In case that a negative acknowledgement has been received by UE on AICH a backoff timer In case that a negative acknowledgement has been received by UE on AICH a backoff timer Maximum number of RACH preamble cycles defines how many times the PRACH pre-amble This parameter defines the report periodicity value for the periodic common measurement This parameter defines how the measurement values should be filtered before Node B reports Identifies congestion management object (CMOB) which contains Radio Network Access The timer defines the waiting time for the repetition of the first RRC Connection Setup The timer defines the waiting time for the repetition of the second RRC Connection Setup This parameter defines whether the Event E based common measurement is initiated This parameter defines the value of the Measurement Hysteresis Time for the Event E

1 Load Control

1 Load Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1 Packet Scheduler

1 Packet Scheduler

1 Admission Control

1

1

1 Handover Control

1 Handover Control


1 Admission Control

1

1

1 SIB3

1 SIB4

1 SIB3

1 SIB7

1 Admission Control

1 Admission Control

1 Admission Control

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1

1 SIB3

This parameter defines whether the Event E based common measurement is initiated This parameter defines the value of the Measurement Filter Coefficient for the The parameter identifies the measurement control parameter set (FMCG object) The parameter identifies the measurement control parameter set (FMCI object) controlling The parameter identifies the measurement control parameter set (FMCS object) The parameter identifies the measurement control parameter set (FMCS object) The margin for the RACH load for downlink channel type selection. When the measured The parameter defines the threshold for the RACH load for downlink channel type selection. If This parameter defines the reference service for producing the maximum code power value of the This parameter controls the usage of the RNSAP:Relocation Commit procedure This parameter indicates the number of free E-RGCH and E-HICH signatures which have to This parameter identifies the Measurement Control Parameter Set (FMCG object) which This parameter identifies the Measurement Control Parameter Set (FMCI object) which Identifies the Measurement Control Parameter Set (FMCS object) which controls This parameter defines whether one, two, or four antennas are used in the receiving direction The Service Area Identifier (SAI) identifies an area consisting of one or more cells which The service area code used in the service area (cell) broadcast. The area where the Service This parameter defines the RAT specific threshold for inter-RAT measurement rules.This parameter defines the RAT specific threshold for inter-RAT measurement rules.SIB4 indicator in SIB3 indicates whether SIB4 is broadcasted in the cell or not.This parameter sets the SIB7 expiration timer for the UE according to the following formula: This parameter defines the offset value for the DPCCH SIR when the radio link has an E-DCH This parameter defines the Establishment Cause (EC) values which prefer faster This parameter defines the Establishment Cause (EC) values which prefer SRB This parameter gives a unique identifier to a sector of the base station where the cell


This parameter defines how many UEs are selected in each period to a service-based inter-This parameter defines how many UEs are selected in each period to a service-based inter-This parameter defines the time (in seconds) when new service-based inter-frequency This parameter defines the time (in seconds) when new service-based inter-RAT handover The parameter indicates the number of steps required for the transmission power to This parameter defines the cell power ramp down duration for the CPICH, BCH and all This parameter defines the threshold for inter-frequency measurements and for

1 SIB4

1 SIB3

1 SIB4

1 SIB3

1 SIB4

1 SIB3, SIB4

1 SIB19

1 SIB19

1 SIB3

1 SIB4

1 SIB3

1 SIB4

1 SIB1

1 SIB1

1 SIB1

1 SIB1

1 SIB1

1 SIB3, SIB4

1 Load Control

1 Load Control

1 Load Control

1 SIB3, SIB4

1 SIB3, SIB4

1

1 Packet Scheduler

1

1 SIB19

1

1

1 Packet Scheduler

1 SIB3, SIB4

1 SIB4

The parameter defines the threshold for inter-frequency measurements and for This parameter defines the threshold for intra-frequency measurements and for The parameter defines the threshold for intra-frequency measurements and for This parameter defines the threshold for skipping inter-RAT measurement rules in The parameter defines the threshold for skipping inter-RAT measurement rules in The parameter defines the speed dependent scaling factor for Treselection, This parameter defines the threshold used in the measurement rules for cell re-selection when This parameter defines the threshold used in the measurement rules for cell re-selection when The parameter defines the threshold for intra- and inter-frequency measurement rules in The parameter defines the threshold for intra- and inter-frequency measurement rules in This parameter defines the RAT-specific threshold for inter-RAT measurement rules.The parameter defines the RAT-specific threshold for inter-RAT measurement rules.The RRC CONNECTION REQUEST retransmission timer The parameter defines the timer for supervising successful establishment of a The parameter defines the timer for supervising successful establishment of a The radio link failure timer (MS timer).The RRC connection re-establishment timer for AM bearers (UE timer).When the cell is barred, the UE must check between the time interval 'Cell barred The parameter defines the value of the Measurement Hysteresis Time for the Event E This parameter defines whether the Event E based common measurement is initiated This parameter defines the value of the Measurement Filter Coefficient for the This parameter defines the duration for evaluating the allowed amount of cell This parameter defines the cell reselection hysteresis for reverting from UE high-mobility This parameter defines the value for the RRC information element TPC command error rate


This parameter defines the target ratio of the power from UEs for which this cell is a non-Each cell in a BTS uses a System Frame Number (SFN) counter, which is the BTS Frame This parameter defines the threshold used in the rules for cell reselection when absolute priorities This parameter defines the ending point of the receiving window. DL data frames are This parameter defines the starting point for the receiving window supported by BTS. DL This parameter defines, in bytes, the threshold of data in the RLC buffers of SRB3, SRB4 and all This parameter defines how the UE triggers the reselection of a new cell if the cell reselection This parameter is used for cell selection and re-selection in Cell_FACH.

1 SIB4

1 SIB5, SIB5bis

1

1 SIB3

1 SIB4

1 Packet Scheduler

1 Packet Scheduler

8


1 SIB11, SIB12

1 Admission Control

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

The parameter is used for cell selection and re-selection in Cell_PCH/URA_PCH.Parameter UARFCN defines the DL channel number and the DL carrier frequency of the This parameter defines the maximum transmission power level a UE can use on DPCH.


This parameter defines the maximum transmission power level that a UE can use on


This parameter defines the maximum transmission power level that a UE can use on


This parameter defines user based bit rate limit for NRT services mapped to E-DCH that This parameter defines an offset related to the maximum received wide band target power; the The URA identity is the identity of the UTRAN Registration Area. Overlapping URAs can The DRX cycle length used by UTRAN to count paging occasions for discontinuous This parameter indicates whether the serving cell belongs to a Hierarchical Cell Structure (HCS), or This parameter defines the maximum number of simultaneous HSPA conversational users This parameter determines whether the uplink voice traffic is allowed to override the


the origin of the last configuration action affecting the object.Global CN-ID (Global Core Network index) is defined for each CN node. This parameter is This parameter defines the Core Network Identity of the CN connected to the Iu This parameter is the unique country identification. The MCC consists of three digits. This parameter is the unique network identification within a country. The MNC This parameter defines whether 2 or 3 digits are used in the Mobile Network Code. This parameter defines the Core Network Identity of the CN connected to the Iu This parameter indicates whether the cell in question is functional or not. The parameter The parameter defines the antenna direction measured clockwise from the North [in Half power beam width in degrees (3dB angle) of the antenna.Coordinates of the TX antenna of the cell in WGS-84 format. This parameter is used to identify the geographical coordinates of the Coordinates of the TX antenna of the cell in WGS-84 format.Coordinates of the TX antenna of the cell in WGS-84 format.Coordinates of the TX antenna of the cell in WGS-84 format.Coordinates of the TX antenna of the cell in WGS-84 format.Coordinates of the TX antenna of the cell in WGS-84 format.Coordinates of the TX antenna of the cell in WGS-84 format.Coordinates of the TX antenna of the cell in WGS-84 format.Coordinates of the TX antenna of the cell in WGS-84 format.

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

Coordinates of the TX antenna of the cell in WGS-84 format.Coordinates of the TX antenna of the cell in WGS-84 format.Coordinates of the TX antenna of the cell in WGS-84 format.Describes type of coverage. This parameter defines environment characterisation. The first category Gives maximum radius of antenna back radiation beam in meters.Gives maximum radius of antenna main radiation beam in meters.Informs if repeater exists in the cell.The parameter defines the origin of the last configuration action affecting the object.This parameter defines Utran Cell identification. The structure includes PLMN-id, RNC-id, and This parameter identifies the cell within the RNC or the I-HSPA adapter.This parameter is the unique country identification. The 3-digit MCC, together with the This parameter is the unique network identification within a country. The MNC This parameter defines whether 2 or 3 digits are used in the Mobile Network Code. This parameter is the unique identification for the RNC or I-HSPA adapter node within the Parameter defines the WLCSE identification.The parameters of this structure define the offsets for the SIR target values to be set in the This parameter defines the offset in the downlink SIR target value to be set in the UE one frame This parameter defines the offset in the uplink SIR target value to be set in the BTS one This parameter defines the offset in the downlink SIR target value to be set in the UE during the This parameter defines the offset in the uplink SIR target value to be set in the BTS during the This parameter defines the orthogonality factor of the downlink channel. The orthogonality factor Management parameter defines the L1 HARQ retransmissions threshold for the Management parameter defines the L1 HARQ retransmissions threshold for the The parameters of this structure define the planned Eb/N0s for the DCHs which are This parameter defines the primary quality target for the DCHs which are transferring radio This parameter defines the planned Eb/N0 for the primary quality target of the DCHs which are This parameter defines the planned Eb/N0 for the secondary quality target of the DCHs This parameter defines the secondary quality target for the DCHs which are transferring This parameter defines whether the primary or the secondary quality target is used for a This parameter defines whether the primary or the secondary quality target is used for a The parameters of this structure define the planned Eb/N0s for the DCHs which are

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

This parameter defines the primary quality target for the DCHs which are transferring radio This parameter defines the planned Eb/N0 for the primary quality target of the DCHs which are This parameter defines the planned Eb/N0 for the secondary quality target of the DCHs This parameter defines the secondary quality target for the DCHs which are transferring This parameter defines whether the primary or the secondary quality target is used for a This parameter defines whether the primary or the secondary quality target is used for a The parameters of this structure define the quality targets and the planned Eb/N0s for the This parameter defines the value of the planned Eb/N0 for the DCH which transfers the This parameter defines the quality target for the DCH which transfers the signalling radio bearer of This parameter defines the value of the planned Eb/N0 for the DCH which transfers the This parameter defines the quality target for the DCH which transfers the signalling radio bearer of The parameters of this structure define the values of data rate gains in the service specific This parameter defines the value of the data rate gain for the planned Eb/N0s of the DCHs This parameter defines the value of the data rate gain for the planned Eb/N0s of the DCHs This parameter defines the value of the data rate gain for the planned Eb/N0s of the DCHs This parameter defines whether the data rate gain is applied with a particular downlink This parameter defines whether the data rate gain is applied with a particular uplink DPDCH This parameter defines the value of the data rate gain for the planned Eb/N0 of the DCH which This parameter defines a cell specific offset for the planned uplink rate matching Eb/N0 values This parameter defines a cell specific offset for the planned uplink rate matching Eb/N0 values The parameter defines a cell specific offset for the planned downlink rate matching Eb/N0 values. This parameter defines the planned Eb/N0 for the E-DCH MAC-d flow of the CS voice service. The parameters of this structure define the planned Eb/N0s for the E-DCHs which are This parameter defines the planned Eb/N0 for E-DCHs with 128 Kbps guaranteed bit rate This parameter defines the planned Eb/N0 for E-DCHs with 16 Kbps guaranteed bit rate This parameter defines the planned Eb/N0 for E-DCHs with 248 Kbps guaranteed bit rate This parameter defines the planned Eb/N0 for E-DCHs with 32 Kbps guaranteed bit rate This parameter defines the planned Eb/N0 for E-DCHs with 64 Kbps guaranteed bit rate This parameter defines the planned Eb/N0 for E-DCHs with 8 Kbps guaranteed bit rate Parameter defines the planned Eb/N0 for E-DCHs with guaranteed bit rate over 248 Kbps The parameters of this structure define the quality targets of the CS transparent and non-This parameter defines the planned Eb/N0 for the CS non transparent data service. The

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1 Admission Control

1

1 Admission Control

1 Admission Control

This parameter defines the quality target for the CS non transparent data service. The same This parameter defines the planned Eb/N0 for the CS transparent data service. The This parameter defines the quality target for the CS transparent data service. The same The parameters of this structure define the quality target of the CS NB-AMR speech service This parameter defines the value of the planned Eb/N0 for the DCH which transfers the This parameter defines the value of the planned Eb/N0 for the DCH which transfers the This parameter defines the quality target for the CS NB-AMR speech service. The same This parameter defines the value of the planned Eb/N0 for the DCH, which transfers the This parameter defines the value of the planned Eb/N0 for the DCH, which transfers the The parameters of this structure define the quality target of the CS WB-AMR speech This parameter defines the value of the planned Eb/N0 for the DCH which transfers the This parameter defines the quality target for the CS WB-AMR speech service. The same This parameter defines the value of the planned Eb/N0 for the DCH, which transfers the This parameter defines the L1 BLER target for the E-DCH MAC-d flow of the CS voice when This parameter defines the L1 BLER target for the E-DCH MAC-d flow of the CS voice when This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the initial SIR target for the UL DPCCH when the radio link has only This parameter defines the maximum SIR target value for the UL DPCCH when the radio link has This parameter defines the minimum SIR target value for the UL DPCCH when the radio link has

1 Admission Control

1 Admission Control

1 Admission Control

1

1

1

1 Handover Control

1 Handover Control

1 Handover Control

1 Handover Control

1

1

1 Handover Control

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

This parameter defines the initial SIR target offset for the UL outer loop power control when This parameter defines the initial SIR target offset value for the UL DPCCH when the radio This parameter defines the initial SIR target offset value for the UL DPCCH when the radio This parameter defines the origin of the last configuration action affecting the object.This parameter identifies the WRAB object uniquely. The object contains the connection Parameter tells whether the roaming to GSM network is allowed or not.The parameter contains the identifier of the home PLMN of a subscriber.Parameters Home PLMN Mobile Country Code and Home PLMN Mobile Network Code Parameters Home PLMN Mobile Country Code and Home PLMN Mobile Network Code The parameter defines whether 2 or 3 digits are used in Home PLMN Mobile Network Code.Parameter tells the operator name of the subscriber home PLMN. The maximum length of Parameter is used to identify a subscriber group for the IMSI Based Handover The parameter defines the number of the authorised network list which includes the The parameter defines the origin of the last configuration action affecting the object.This parameter enables and disables the feature PCAP Position Calculation procedure Confidence Area Level parameter indicates the percentage of range difference measurement This list defines the priorities of the Emergency call location calculation shapes.This parameter defines the priority of the Ellipsoid Arc for emergency locationing This parameter defines the priority of the Ellipsoid point for emergency locationing This parameter defines the priority of the Ellipsoid point with altitude for emergency This parameter defines the priority of the Ellipsoid point with uncertainty circle for This parameter defines the priority of the Ellipsoid point with altitude and uncertainty This parameter defines the priority of the Ellipsoid point with uncertainty Ellipse for This parameter defines the priority of the Polygon for emergency locationing shape.Parameter defines how many per cents of LCS capacity is used.This parameter indicates to SMLC which interface is used for enquiring A-GPS data and for This parameter is used for enabling and disabling the LCS Shape Conversion feature.This parameter enables and disables Network based A-GPS using the external reference The network indicator defines the signalling network to which the signalling point belongs. This parameter defines the operational mode of Location Services.This parameter defines whether only a part of the required assistance data can be delivered to This parameter defines how many per cents of LCS capacity can be used by periodic location

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

This parameter indicates to SMLC which A-GPS method is preferred, that is, used first when The parameter defines the exact maximum time to process when the CN has requested direct The parameter defines the exact maximum time to process when the CN has requested direct The list defines the shape priorities for the location calculation. This parameter defines the Ellipsoid Arc shape priority. The shape cannot be returned to This parameter defines the Ellipsoid point shape priority.This parameter defines the priority of the Ellipsoid point with altitude shape. This This parameter defines the priority of the Ellipsoid point with uncertainty circle shape.This parameter defines the priority of the Ellipsoid point with altitude and uncertainty This parameter defines the priority of the Ellipsoid point with uncertainty Ellipse This parameter defines the priority of the Polygon shape.The code that uniquely identifies the signalling point in the signalling network. Signalling Point This parameter enables and disables UE based A-GPS using the external reference The parameter defines the origin of the last configuration action affecting the object.Parameter defines SMLC identification.

Related parameters Group Classification

Identification

HCConfiguration

HCConfiguration

HCMeasurements

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Identification

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Parameter relationships

Operation and MaintenanceOperation and MaintenanceRadio Resource Utilisation

PtxPrimaryCPICH of WCEL - If the target cell is in the same RNC, ADJD- Primary CPICH

Radio Resource UtilisationRadio Resource Utilisation

HOPSId of HOPS - Check that the relevant HOPS object exists in the database. (public)

Radio Resource Utilisation

LAC of WCEL - If the target cell is in the same RNC, ADJD- Location Area Code shall have


WCELMCC of WCEL - If the target cell is in the same RNC, ADJD- Mobile Country Code


WCELMNC of WCEL - If the target cell is in the same RNC, ADJD- Mobile Network Code


AdjdMNC of ADJD - When this parameter is modified also the value of the mobile network




RAC of WCEL - If the target cell is in the same RNC, ADJD- Routing Area Code shall have






PriScrCode of WCEL - If the target cell is in the same RNC, ADJD- Primary Scrambling

Radio Resource UtilisationRadio Resource UtilisationOperation and MaintenanceOperation and MaintenanceRadio Resource Utilisation

ADJGType of ADJG - Parameter value is always 0 if the value of ADJGType is 'GAN cell'.


AdjgBandIndicator of ADJG - Indicates whether the BCCH ARFCN belongs to the


AdjgBCCH of ADJG - Contains the absolute RF channel number of the Broadcast Control

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

AdjgMNCLength of ADJG - Value range depends from the AdjgMNCLength: 00..99


ADJGType of ADJG - Parameter value is always 0 if the value of ADJGType is 'GAN cell'.


HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Identification

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCMeasurements

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Identification

SystemInfo

SystemInfo Telecom

AdjiSIB of ADJI - Parameter indicates whether the inter-frequency neighbour cell


ADJGType of ADJG - Parameter value is always 0 dBm if the value of ADJGType is


AdjgRxLevMinHO of HOPG - Determines the minimum required GSM RSSI level which the


HOPGId of HOPG - Check that the relevant HOPG object exists in the database. (public)



Radio Resource UtilisationOperation and MaintenanceOperation and MaintenanceRadio Resource Utilisation

PtxPrimaryCPICH of WCEL - If the target cell is in the same RNC, ADJI- Primary CPICH

The modification is always possible except if the new target cell is existing in local RNC. In


NCHOFilterCoeffComLoadMeasDRNCCell of RNMOBI - This parameter defines the


AdjiEcNoOffsetNCHO of ADJI - This parameter defines the soft handover range of the


LAC of WCEL - If the target cell is in the same RNC, ADJI- Location Area Code shall have


AdjiMNCLength of ADJI - Value range depends from the AdjiMNCLength: 00..99


AdjiMNC of ADJI - The value range of Mobile Network Code depends on the value of Mobile


RAC of WCEL - If the target cell is in the same RNC, ADJI- Routing Area Code shall have


AdjsSIB of ADJS - The parameter indicates whether the intra-frequency neighbour cell


PriScrCode of WCEL - Primary Scrambling Code and UTRA RF Channel Number


The value must always be 0 (not used) if the inter-frequency neighbour cell is


AdjiMinRSCP of HOPI - Determines the minimum required CPICH RSCP level


UEtxPowerMaxPRACH of WCEL - The modification is always possible except if the


UARFCN of WCEL - If the target cell is in the same RNC, ADJI- UTRA Absolute Radio


AdjiRNCid of ADJI - The system checks that the target cell RNC id (AdjiRNCid) is the same


HOPIId of HOPI - Check that the relevant HOPI object exists in the database. (public)




HCConfiguration

Identification

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Identification

Telecom

Telecom

Telecom

Identification Telecom



Telecom

SystemInfo Telecom

HOPLId of HOPL - Check if the relevant HOPL object exists in the database. (internal)


PtxPrimaryCPICH of WCEL - If the target cell is in the same RNC, ADJS- Primary CPICH

The modification is always possible except if the new target cell is existing in local RNC. In


DropWindow of FMCS - The dB values of the CPICH Ec/No Offset and Drop Window


LAC of WCEL - If the target cell is in the same RNC, ADJS- Location Area Code shall have


AdjsMNCLength of ADJS - Value range depends from the AdjsMNCLength: 00..99


AdjsMNC of ADJS - The value range of Mobile Network Code depends on the value of Mobile


RAC of WCEL - If the target cell is in the same RNC, ADJS- Routing Area Code shall have

Radio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

PriScrCode of WCEL - Primary Scrambling Code of an intra-frequency neighbour cell


The value must always be 0 (not used) if the intra-frequency neighbour cell is


UEtxPowerMaxPRACH of WCEL - The modification is always possible except if the


HSDPAenabled of WCEL - If Intra-Frequency Adjacency (ADJS) parent WCEL




HOPSId of HOPS - Parameter must point to the existing HOPSId. (public)



Radio Resource UtilisationOperation and MaintenanceOperation and Maintenance

MCC of CBCI - null (public)

ACBarredList of WCEL - Parameter value shall be partly overridden when 'Radio Network

Operation and Maintenance

Identification

SystemInfo Telecom

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission


RestrictionInterval of RNC - RNC has a timer using "RestrictionInterval" as

Operation and MaintenanceOperation and MaintenanceOperation and Maintenance

AAL2MuxDelay of COCO - AAL2LossRatio value -3 should be used with AAL2MuxDelay AAL2TPList of COCO - If the AAL2 multiplexing is enabled, the same VCI value can be given AAL2LossRatio of COCO - AAL2LossRatio value -3 should be used with AAL2MuxDelay

CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is CreateATMTP of COCO - The parameter value is used in the ATM TP creation when the AAL2SigServiceCategory of COCO - If parameter AAL2SigServiceCategorAAL2SigServiceCategory of COCO - If parameter AL2SigServiceCategory AAL2SigServiceCategory of COCO - If parameter AAL2SigServiceCategorAAL2SigServiceCategory of COCO - If parameter AAL2SigServiceCategorCreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is CreateATMTP of COCO - The parameter value is used in the ATM TP creation when the AAL2SigEgressMDCR of COCO - If parameter AAL2SigServiceCategory has value 'UBR+' the

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BTSFallbackEnabled of WBTS - If BTSFallbackEnabled is ENABLED, the GenerateAAL2Num of COCO - The parameter is mandatory if the GenerateAAL2Num is AAL2UPUsage of COCO - AAL2PathType and AAL2UPUsage are used to control the AAL2

CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is AAL2UPServiceCategory of COCO - If parameter AAL2UPServiceCategorAAL2UPServiceCategory of COCO - If parameter AAL2UPServiceCategorAAL2UPServiceCategory of COCO - If parameter AAL2UPServiceCategorAAL2UPServiceCategory of COCO - If parameter AAL2UPServiceCategorCreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is AAL2UPEgressMDCR of COCO - If parameter AAL2UPServiceCategory has value 'UBR+' the AAL2PathType of COCO - AAL2PathType and AAL2UPUsage are used to control the AAL2

GenerateAAL2Num of COCO - The parameter is mandatory if the GenerateAAL2Num is

The parameter value is read from RNC object parameter IubDATree.

GenerateAAL2Num of COCO - The WAMId is used when generating the A2EA address for

Transmission

Identification Transmission

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Identification Transmission

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ATMInterface of COCO - COCO object main level ATMInterfaceID is set to special value (not

CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is CreateATMTP of COCO - The parameter value is used in the ATM TP creation when the CNBAPServiceCategory of COCO - If parameter CNBAPServiceCategory has value 'UBR+' the CNBAPServiceCategory of COCO - If parameter CNBAPServiceCategory has value 'UBR+' the CNBAPServiceCategory of COCO - If parameter CNBAServiceCategory has value 'UBR+' the CNBAPServiceCategory of COCO - If parameter CNBAPServiceCategory has value 'UBR+' the CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is CreateATMTP of COCO - The parameter value is used in the ATM TP creation when the CNBAPEgressMDCR of COCO - If parameter CNBAPServiceCategory has value 'UBR+' the


CreateATMTP of COCO - The parameter has to be given if the CreateATMTP CalculateCDVT of COCO - The parameter has to be given if the CreateATMTP

CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is CreateATMTP of COCO - The parameter value is used in the ATM TP creation when the

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HCConfiguration

HCConfiguration

DNBAPServiceCategory of COCO - If parameter DNBAPServiceCategory has value 'UBR+' the DNBAPServiceCategory of COCO - If parameter DNBAPServiceCategory has value 'UBR+' the DNBAPServiceCategory of COCO - If parameter DNBAPServiceCategory has value 'UBR+' the DNBAPServiceCategory of COCO - If parameter DNBAPServiceCategory has value 'UBR+' the CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is CreateATMTP of COCO - The parameter value is used in the ATM TP creation when the DNBAPEgressMDCR of COCO - If parameter DNBAPServiceCategory has value 'UBR+' the

AAL2TPList of COCO - The A2EA and AAL2 Path id number generation rule has an

CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is VPLTPServiceCategory of COCO - If parameter VPLTPServiceCategory has value 'UBR+' the CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is VPLTPEgressMDCR of COCO - If parameter VPLTPServiceCategory has value 'UBR+' the CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is


ADJGId of ADJG - The target cell of directed retry of AMR call is the cell whose ADJGId


Identification

HCConfiguration

HCConfiguration

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HCConfiguration

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HCConfiguration

Identification

Operation and MaintenanceOperation and Maintenance

HHoEcNoCancel of FMCS - The parameter determines the absolute CPICH Ec/No threshold


HHoRscpCancel of FMCS - The parameter determines the absolute CPICH RSCP threshold


GsmDLTxPwrThrAMR of FMCG - The parameter determines the downlink DPCH TX power


GsmUETxPwrFilterCoeff of FMCG - The parameter controls the higher layer filtering of


HHoMaxAllowedBitrateUL of WCEL - In case of RT data connection (CS or PS), the maximum


GSMcauseTxPwrDL of FMCG - GSMcauseTxPwrDL enables handover to






GSMcauseTxPwrDL of FMCG - FMCG-GSMcauseTxPwrDL enables handover to


GsmMeasRepInterval of FMCG - Maximum allowed duration of the inter-RAT (GSM)

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

GsmMaxMeasPeriod of FMCG - The value of GsmNcellSearchPeriod must be lower than the


GSMcauseTxPwrUL of FMCG - GSMcauseTxPwrUL enables handover to








GSMcauseTxPwrUL of FMCG - The parameter indicates whether a handover to GSM

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationOperation and MaintenanceOperation and Maintenance

HCConfiguration

HCConfiguration

HCConfiguration

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HCConfiguration

HHoEcNoCancel of FMCS - The parameter determines the absolute CPICH Ec/No threshold


HHoRscpCancel of FMCS - The parameter determines the absolute CPICH RSCP threshold


InterFreqDLTxPwrThrAMR of FMCI - The parameter determines the downlink DPCH TX


InterFreqUETxPwrFilterCoeff of FMCI - The Filter Coefficient parameter controls the


HHoMaxAllowedBitrateUL of WCEL - In case of RT data connection (CS or PS), the maximum


IFHOcauseTxPwrDL of FMCI - IFHOcauseTxPwrDL enables inter-frequency








InterFreqMeasRepInterval of FMCI - Maximum allowed duration of the inter-frequency


InterFreqMaxMeasPeriod of FMCI - The value of InterFreqNcellSearchPeriod must be lower than


IFHOcauseTxPwrUL of FMCI - IFHOcauseTxPwrUL enables inter-frequency







Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

AdditionTime of FMCS - Addition Time determines the period of time between the


AdditionReportingInterval of FMCS - Addition Reporting Interval determines the interval


ActiveSetWeightingCoefficient of FMCS - The parameter is used to weight either the


DropWindow of FMCS - Drop Window determines the relative threshold which is used


HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Identification

HCConfiguration

HCConfiguration

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HCConfiguration

ActiveSetWeightingCoefficient of FMCS - The parameter is used to weight either the


DropWindow of FMCS - If the usage of E-DCH is wanted to be limited for the case where DCH


DropWindow of FMCS - If the usage of E-DCH is wanted to be limited for the case where DCH

Radio Resource UtilisationRadio Resource UtilisationOperation and MaintenanceOperation and Maintenance

GSMcauseCPICHEcNo of FMCG - The parameter indicates whether a handover to








GSMcauseCPICHrscp of FMCG - This parameter indicates whether a handover to GSM








ReplacementTime of FMCS - The parameter determines the period of time between the


ReplacementReportingInterval of FMCS - This parameter determines the interval of periodical


ReplacementReportingInterval of FMCS - The parameter determines the interval of periodical

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

AdjgPenaltyTime of HOPG - The offset is subtracted (during Penalty Time) from the

Radio Resource UtilisationOperation and Maintenance

Identification

HCConfiguration

SystemInfo

SystemInfo

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

SystemInfo

HCConfiguration

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SystemInfo

SystemInfo

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SystemInfo

SystemInfo

SystemInfo

HCConfiguration

Identification

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Identification

Operation and MaintenanceRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

AdjiPenaltyTime of HOPI - The offset is subtracted (during Penalty Time) from the


AdjiPenaltyTime of HOPI - The offset is subtracted (during Penalty Time) from the

Radio Resource UtilisationRadio Resource UtilisationOperation and MaintenanceOperation and Maintenance

AbsPrioCellReselec of WCEL - This parameter defines the absolute priority level for the cell

It must be ensured that AbsPrioCellReselec and AdjLAbsPrioCellReselec always have unique

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationOperation and MaintenanceOperation and Maintenance

SystemInfo

SystemInfo

SystemInfo

SystemInfo

SystemInfo

SystemInfo

SystemInfo

SystemInfo

SystemInfo

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Identification

PSParameters

PSParameters

HCConfiguration

HCConfiguration

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Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

AdjsPenaltyTime of HOPS - The offset is subtracted (during Penalty Time) from the


AdjsPenaltyTime of HOPS - The offset is subtracted (during Penalty Time) from the


ReleaseMarginAverageEcNo of HOPS - The parameter determines the maximum allowed


HHOMarginPeakEcNo of HOPS - HHO Margin for Average Ec/No must be lower than or equal to


HHOMarginAverageEcNo of HOPS - HHO Margin for Peak Ec/No must be greater than or

Radio Resource UtilisationOperation and MaintenanceOperation and Maintenance

CSAMRModeSET of VCEL - HSDPA availability check is valid if HSDPA over Iur is


CSAMRModeSET of VCEL - HSUPA availability check is valid if HSUPA over Iur is


EnableRRCRelease of HOPS - The parameter indicates whether a RRC connection release


EnableRRCRelease of HOPS - The parameter indicates whether a RRC connection release



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Identification

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SystemInfo Telecom

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SystemInfo Telecom

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Identification



NRIMinForCSCN of IUCS - This parameter determines the NRI value range or, if the NRIMaxForCSCN of IUCS - NRIMinForCSCN and NRIMaxForCSCN can be configured to use

MNC of IUCS - null (public)MNCLength of IUCS - null (public)MNC of IUCS - null (public)


IuBarringRecoveryTimer of IUCS - null (public)


IuBarringRecoveryGroupCS of IUCS - null (public)


Telecom

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Identification

ACConfiguration

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ACConfiguration

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Identification








DefaultCN of IUCS - Parameter can be defined for each Default CN node(DefaultCN).

IPNetmaskCS of IUCSIP - The IPNetmaskCS with the DestIPAddressCS attribute form the DestIPAddressCS of IUCSIP - The IPNetmaskCS with the DestIPAddressCS

Operation and MaintenanceOperation and MaintenanceRadio Resource UtilisationOperation and MaintenanceRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationOperation and MaintenanceOperation and Maintenance

NRIMaxForCSCN of IUCS - The Null NRI value cannot be given to any MSC of the pool. NRIMaxForPSCN of IUPS - null (public)

CommonMCC of RNC - Common PLMN id (CommonMCC and CommonMNC) can't be MNC of IUO - null (public)MNCLength of IUO - null (public)


- Identification

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Identification


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SystemInfo Telecom

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Telecom

MNC of IUO - null (public)

SharedAreaPLMNid of IUO - null (public)






CellFACHnRncRelocSupport of IUR - null (public)

MNC of IUPS - null (public)MNCLength of IUPS - null (public)

Value range depends from the MNCLength: 00..99 (if MNCLength is 2) or 000..999 (if

MNC of IUPS - null (public)


IuBarringRecoveryTimer of IUPS - IuBarringRecoveryTimer parameter defines the


IuBarringRecoveryGroupPS of IUPS - IuBarringRecoveryGroupPS parameter defines


DefaultCN of IUPS - This parameter can be defined for each default CN node(DefaultCN).

CNDRXLength of IUPS - NRIMinForPSCN and NRIMaxForPSCN can be configured to have CNDRXLength of IUPS - NRIMinForPSCN and NRIMaxForPSCN can be configured to have

NetworkInd of IUPS - null (public)

Telecom

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ACConfiguration

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HCConfiguration

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Identification

Telecom

ACConfiguration

Transmission

Telecom

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Telecom

IPNetmaskPS of IUPSIP - The DestIPAddressPS with the IPNetmaskPS attribute form the DestIPAddressPS of IUPSIP - The IPNetmaskPS with the DestIPAddressPS


CellFACHRelocSupport of IUPS - null (public)

DelayThresholdMidIur of IUR - The value of DelayThresholdMidIur always has to be less DelayThresholdMaxIur of IUR - The value of DelayThresholdMidIur always has to be less DelayThresholdMid of WBTS - The value of DelayThresholdMin always has to be less

NRncVersion of IUR - The system checks if the release version of Neighboring RNC is


IurUPSupport of IUR - This parameter indicates user plane procedure support of the Iur



CSAMRModeSET of VCEL - Bit rate limitation is valid only if HSDPA over Iur is enabled.


NetworkInd of IUPS - null (public)RelocationSupport of IUCS - null (public)NRncNetworkInd of IUR - null (public)

Telecom




HCConfiguration

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PSParameters Telecom

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HCConfiguration

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MNC of IUR - null (public)MNCLength of IUR - null (public)

Value range depends from the MNCLength: 00..99 (if MNCLength is 2) or 000..999 (if

MNC of IUR - null (public)


Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

HCConfiguration

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HCConfiguration

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationOperation and MaintenanceRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

HCConfiguration

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HCConfiguration

HCConfiguration

HCConfiguration

Identification

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationOperation and MaintenanceRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

HCConfiguration

HCConfiguration

HCConfiguration

Identification

Identification

Identification

Identification

Identification

ACConfiguration

ACConfiguration

ACConfiguration

PCConfiguration

PCConfiguration

ACConfiguration

PCConfiguration

PCConfiguration

LCConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

PCConfiguration

PCConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

PCConfiguration


AutoConnSiteID of PREBTS - The Auto Connection Site ID defines the WBTS site


AutoConnHWID of PREBTS - The Auto Connection Hardware ID defines the WBTS




PowerBalancing of RNFC - Parameter defines whether Power Balancing is used or not.




InitialBitRateUL of WCEL - If this parameter is set, the value of the parameter


DLmaxBitRateSF256 of RNAC - Value of the parameter shall be bigger than the value of




DLmaxBitRateSF128 of RNAC - Value of the parameter shall be smaller than the value of


DLmaxBitRateSF16 of RNAC - Value of the parameter shall be smaller than the value of



Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

GainFactorDataPartPRACHmessage of RNAC - Gain factors of the data part of the PRACH


PCConfiguration

PCConfiguration

PCConfiguration

PCConfiguration

PCConfiguration

PCConfiguration

PCConfiguration

PCConfiguration

PCConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

PCConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

PCConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

PCConfiguration

LCConfiguration


Telecom

PCConfiguration

PCConfiguration

ACConfiguration

GainFactorControlPartPRACHmessage of RNAC - Parameter belongs to the








GainFactorControlPartPRACHmessage of RNAC - Gain factors of the control part of the


GainFactorDataPartPRACHmessage of RNAC - Parameter relationships: Parameter belongs to


GainFactorDataPartPRACHmessage of RNAC - Parameter belongs to the parameter structure






ICROperatorId of IUO - ICRHostOperatorId must match with at least one of the ICROperatorId






PtxDPCHmin of WBTS - PtxDPCHmin defines the minimum code channel output power for




PrxNoise of WCEL - The parameter defines the absolute limits for the noise power change in




ExpectReorderingPDCP of RNAC - null (public)


ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

PCConfiguration

PCConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration


Identification


Telecom


ULmaxBitRateSF256 of RNAC - Value of the parameter shall be bigger than the value of




ULmaxBitRateSF128 of RNAC - Value of the parameter shall be smaller than the value of


ULmaxBitRateSF16 of RNAC - Value of the parameter shall be smaller than the value of






WaitTimeRRC of RNAC - Parameter belongs to the parameter structure WaitTimeRRC (public)
























WCELCSCNId of WCEL - If Common PLMN id is defined, WCELCSCNId and WCELPSCNId WCELCSCNId of WCEL - If Common PLMN Id is defined, WCELCSCNId and WCELPSCNId CommonMNC of RNC - MNC of Common PLMN Id. If the CommonMNCLength

Operation and MaintenancePerformance Management

EmergencyCallRedirect of RNFC - This parameter is only used if Emergency Call Redirect

Telecom

Telecom

Telecom

Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

Telecom

Telecom

Telecom

Identification

Identification

ACConfiguration

SystemInfo Telecom


SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

UL_DL_activation_timer of RNC - If ExtendedULDLactivationTmr = 0, normal LCSfunctionality of RNC - LCS Support in Drift RNC feature can be enabled only if LCS

T302 of RNC - The CELL UPDATE/URA UPDATE retransmission timer (MS timer) (public)T304 of RNC - The UE CAPABILITY INFORMATION retransmission timer T308 of RNC - The RRC CONNECTION RELEASE COMPLETE retransmission timer

Operation and MaintenanceOperation and MaintenanceRadio Resource UtilisationRadio Resource Utilisation

UTRAN_DRX_length of WCEL - null (public)


RncId of RNC - null (public)

Operation and MaintenanceRadio Resource Utilisation

ACBarredListSystem of CMOB - When Access Classes to be barred have been selected,


SIB18_priority of RNC - The priority of SIB11 shall not be lower than what is defined for SIB18_priority of RNC - The priority of SIB12 shall not be lower than what is defined for SIB11_priority of RNC - The priority of SIB18 shall not be higher than what is defined for

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

SystemInfo Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

OMSIpAddress of RNC - OMS IP Address specifies the primary OMS IP address that is








N302 of RNC - CELL UPDATE/URA UPDATE retransmission counter (MS counter) (public)N304 of RNC - UE CAPABILITY INFORMATION retransmission counter T307 of RNC - null (public)T305 of RNC - null (public)N308 of RNC - This counter is used to define the maximum number of retransmissions of the

T317 of RNC - null (public)T316 of RNC - null (public)ToAWS_NRT_DCH_tti10 of RNC - null (public)ToAWS_NRT_DCH_tti20 of RNC - null (public)ToAWS_NRT_DCH_tti40 of RNC - null (public)ToAWS_RT_DCH_tti10 of RNC - null (public)ToAWS_RT_DCH_tti20 of RNC - null (public)ToAWS_RT_DCH_tti40 of RNC - null (public)ToAWS_Speech of RNC - null (public)ToAWE_NRT_DCH_tti10 of RNC - null (public)ToAWE_NRT_DCH_tti20 of RNC - null (public)ToAWE_NRT_DCH_tti40 of RNC - null (public)ToAWE_RT_DCH_tti10 of RNC - null (public)ToAWE_RT_DCH_tti20 of RNC - null (public)ToAWE_RT_DCH_tti40 of RNC - null (public)ToAWE_Speech of RNC - null (public)

Telecom

Telecom

PSParameters

PSParameters

Telecom

PSParameters

Telecom

Telecom

PSParameters

PSParameters

PSParameters

PSParameters

SystemInfo Telecom

HCConfiguration

ACConfiguration

PSParameters

PSParameters

PSParameters

PSParameters

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration Telecom

Telecom

Performance Management

RTWithHSPAFmcsIdentifier of WCEL - AMRwithEDCH is not allowed to set to


HSDPAenabled of WCEL - See other related parameter definitions. (public)



SignConnActivitySupervision of RNFC - See the parameter description of SignConnActivitySupervi

Performance ManagementRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

FlexUpgrUsage of RNFC - By this parameter can be swiched "On" and "Off"


LCSfunctionality of RNC - LCS is used as backup if ISHO fails for some reason, for this LCS


HSDPADynamicResourceAllocation of RNFC - Flexible RLC can be utilised only if HSDPA


DCHUtilHighAveWin of RNPS - If the parameter FlexUpgrUsage is switched 'On', the value


HSDPAenabled of WCEL - HSDPA must be enabled in order to apply 16 kbps return channel


HSDPAenabled of WCEL - HSDPA Dynamic Resource Allocation can be utilised


HSUPAEnabled of WCEL - HSDPA mobility can be deactivated only when no cell is using


HSDPAenabled of WCEL - HSDPA must be enabled in the cell in order to apply HSPA


HSDPADynamicResourceAllocation of RNFC - The system checks that the HSDPA Dynamic


LCSfunctionality of RNC - ISHO is used as backup if LCS fails for some reason, for this

Telecom

PSParameters

PSParameters

PCConfiguration

PSParameters

-

- Identification Telecom

ACConfiguration

HCConfiguration

Telecom

ACConfiguration

ACConfiguration

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

MultiplePLMNListIncluded of WCEL - This parameter defines if multiple PLMN list is MultiplePLMNListIncluded of WCEL - To broadcast multiple PLMN list (IuOperator-PBSgrantedMinDCHallocT of WCEL - This parameter defines the minimum allocation time


DCHUtilBelowDowngradeThr of RNPS - If the parameter PSOpThroUsage is


AdjustmentPeriod of RNAC - Parameter defines the period during which the DL transmitted


HSDPADynamicResourceAllocation of RNFC - The system checks that the HSDPA Dynamic


CCHSetupEnabled of WCEL - SRBs of R99 UEs on CCH can be used only when


MSActivitySupervision of RNC - When there is a PS-RAB configured in the MS, the supervision WireLessPriorityService of RNFC - Parameter WireLessPriorityService indicates whether the ADJGId of ADJG - The target cell of directed retry of WPS call is the cell whose ADJGId


HSPAQoSEnabled of WCEL - ARP based weights are used only if QoS prioritization is in







Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

PSParameters

ACConfiguration

HCConfiguration

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

ACConfiguration

- ACConfiguration

ACConfiguration

PSParameters

PSParameters

PSParameters

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

HSDSCHCTSwitchGuardTimer of RNHSPA - If HSDSCHCTSwitchGuardTimer has smaller

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

HSPAQoSEnabled of WCEL - HSPA streaming must also be enabled with the


FDPCHEnabled of WCEL - If F-DPCH is not enabled in the cell by the FDPCHEnabled


PSParameters

HCConfiguration

HCConfiguration

HCConfiguration

PSParameters

HCConfiguration

PSParameters

PSParameters

ACConfiguration

HCConfiguration

HCConfiguration

PSParameters

PSParameters

ACConfiguration

ACConfiguration

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters


HSDPAMobility of RNFC - Parameter is applicable if the HSDPA serving cell change is


HSDPAMobility of RNFC - Parameter activates the serving HS-DSCH cell change. (public)


HSDPAServCellWindow of RNMOBI - This parameter should have smaller value than value


HSDPAMaxBitrateUL of WCEL - If HSDPAMaxBitrateUL is lower than


HSDPAMobility of RNFC - Parameter activates the serving HS-DSCH cell change. (public)




HSDPAinitialBitrateUL of RNHSPA - If limitation is active and the RAB maximum is below the


PtxTargetHSDPA of WCEL - PtxTargetHSDPA together with






MACdflowthroughputRelThr of RNHSPA - Parameter defines the threshold for HS-DSCH


HSPAQoSEnabled of WCEL - HSPA streaming must also be enabled with the


HSPAQoSEnabled of WCEL - This parameters is relevant if Streaming is in use in the cell


HSPANBRValues of RNHSPA - The system checks that after adding or removing NBR value




























PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

ACConfiguration

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

ACConfiguration

ACConfiguration

ACConfiguration

PSParameters

ACConfiguration

PSParameters

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

























HSDPAenabled of WCEL - HS-PDSCH code adjustment (upgrade/downgrade) is

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

MACdflowthroughputAveWin of RNHSPA - The sliding measurement window is defined with


MACdflowthroughputRelThr of RNHSPA - If the result of the throughput measurement is less


MACdflowthroughputRelThr of RNHSPA - If the result of the throughput measurement is less


MACdflowthroughputAveWin of RNHSPA - The sliding measurement window is defined with


MACdflowutilRelThr of RNHSPA - If the result of the throughput measurement is lower


MACdflowutilRelThr of RNHSPA - If the result of the throughput measurement is lower


ACConfiguration

ACConfiguration

Telecom

Telecom

Telecom

Telecom

ACConfiguration

ACConfiguration

PSParameters

PSParameters

ACConfiguration

PSParameters


ACConfiguration

ACConfiguration

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

Telecom

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters


Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationOperation and Maintenance


ThresholdMaxEDPDCHSR960kbps of RNHSPA - Value of the parameter ThresholdMaxEDPDCH


ThresholdMaxEDPDCHSR1920kbps of RNHSPA - Value of the parameter


ThresholdMaxEDPDCHSR1920kbps of RNHSPA - Value of the parameter


TrafVolPendingTimeDL of RNPS - Timer TrafVolPendingTimeDL should be shorter than HSDPAenabled of WCEL - Dynamic prioritisation is applicable only if


HSDPAenabled of WCEL - Dynamic prioritisation is applicable only if
















PSParameters

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Telecom

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

PCConfiguration

Telecom

HCConfiguration

HCConfiguration

HCConfiguration

PSParameters

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration



FMCIId of FMCI - null (public)


FMCSId of FMCS - null (public)


HOPIId of HOPI - null (public)


HOPSId of HOPS - null (public)


MaxCellReselections of RNMOBI - Maximum allowed number of Cell Reselections before DirectedRRCForHSDPALayerEnhanc of RNMOBI - If DirectedRRCForHSDPA


AuthorisedNetworkId of WANE - Identifier of the Default Authorized Network shall point to an


SectorID of WCEL - If this parameter is disabled then there must not be more than two


HSDPALayeringCommonChEnabled of WCEL - If HSDPALayeringCommo

Radio Resource UtilisationPerformance ManagementRadio Resource Utilisation

FastUEThreshold of RNMOBI - Parameter determines the threshold value for evaluating a


FastUECancel of RNMOBI - Parameter determines the threshold value for evaluating a


GsmHandoverCS of RNMOBI - The corresponding parameter


GsmHandoverAMR of RNMOBI - The corresponding parameter


GsmHandoverAMR of RNMOBI - The parameter indicates whether an inter-RAT


GsmHandoverAMR of RNMOBI - The parameter indicates whether an inter-RAT
















HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCMeasurements

HCConfiguration

Telecom

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration


HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration











UpperRxTxTimeDiff of RNMOBI - Defines the absolute threshold which is used by the UE to


CellReselectionObservingTime of RNMOBI - In expiry of the observation timer, the counter


AdjiComLoadMeasDRNCCellNCHO of ADJI - Switch for the common load measurements.





Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationOperation and Maintenance

LHOWinSizeONCapaReqRejRate of WCEL - If the parameter has the value 0, the


SLHOProfileConvCSSpeech of RNMOBI - The preferred RAT or WCDMA layer for the


SLHOProfileBackgroundPSNRTData of RNMOBI - The preferred RAT or WCDMA layer for the








HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

Telecom

Telecom

HCConfiguration

PCConfiguration

HCMeasurements

PSParameters


PSParameters







SLHOUseConvCSSpeech of RNMOBI - Parameter defines whether SLHOs are


SLHOUseBackgroundPSNRTData of RNMOBI - Parameter defines whether SLHOs are
















TRelocPrep of RNMOBI - null (public)TRelocOverall of RNMOBI - null (public)

Performance Management

CPICHRSCPThreEDCH2MS of RNHSPA - CPICHRSCPThreCovEDCH2MS defines the E-


LowerRxTxTimeDiff of RNMOBI - Defines the absolute threshold which is used by the UE to


ToCellFACHinTest of RNPS - null (public)LHOWinSizeONCapaReqRejRate of WCEL - The value of the parameter has to be


PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

LHOWinSizeONCapaReqRejRate of WCEL - The value of the parameter has to be


DCHUtilHighBelowNRTDataRateThr of RNPS - The high throughput threshold is defined by


DCHUtilHighAveWin of RNPS - The sliding measurement window size

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

DCHUtilRelTimeToTrigger of RNPS - The release Time to Trigger (DCHUtilRelTimeToTrig


PSOpThroUsage of RNFC - The Throughput-based Optimization of the PS


PSOpThroUsage of RNFC - The Throughput-based Optimization of the PS


DCHUtilRelAveWin of RNPS - The release window size is respectively 1 s. With


PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

PBSgrantedMinDCHallocT of WCEL - This parameter defines the minimum allocation time


InactivityTimerUplinkDCH of RNPS - When all of the DCH specific inactivity timers


InactivityTimerDownlinkDCH of RNPS - null (public)


InactivityTimerDownlinkDCH of RNPS - When all of the DCH specific inactivity timers


PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters


PSParameters

PSParameters


RNSAPCongAndPreemption of IUR - Parameter enables / disables usage of the Radio Link


HSPAQoSEnabled of WCEL - Prioritization defined with the QoSPriorityMapping


QoSPriorityMapping of RNPS - The system checks if the parameter value is smaller than in






QoSPriorityMapping of RNPS - The system checks if the value given to PriForConvOnHSPA


QoSPriorityMapping of RNPS - The system checks that parameter value is smaller than in


QoSPriorityMapping of RNPS - The system checks if the parameter PriForIntSignaling has




















QoSPriorityMapping of RNPS - The system checks if the value given to PriForSRBsOnHSPA


HSPANBRValues of RNHSPA - The system checks if NBR is not defined for priority used






QoSPriorityMapping of RNPS - The system checks that used value is smaller than is used in




PSParameters


PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

PSParameters

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration



CellDCHtestTmr of RNPS - null (public)TrafVolThresholdDLLow of WCEL - Defines the threshold of data in the RLC buffers that triggers


CrQueuingTimeUL of RNPS - Defines how long a uplink capacity request can stay in the


TrafVolThresholdDLLow of WCEL - Defines the threshold of data in the RLC buffers that triggers


FlexUpgrUsage of RNFC - Parameter TrafVolThresholdDLHighBitRate is in use if the


InitialBitRateUL of WCEL - Defines the minimum allowed bit rate in uplink that can be


FlexUpgrUsage of RNFC - Parameter TrafVolThresholdULHighBitRate is in use if the


TrafVolPendingTimeUL of RNPS - Defines the period of time during which it is forbidden to


TrafVolThresholdDLLow of WCEL - Defines the threshold of data in the RLC buffers that triggers


TrafVolPendingTimeUL of RNPS - Defines the period of time during which it is forbidden to


ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration


AMRLCRespTimeDCH10 of RNRLC - defines the reference AM RLC RTT value when the




ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

AMRLCRespTimeDCH10 of RNRLC - Value of the parameter is expressed in the relation


AMRLCRespTimeDCH40 of RNRLC - Value of the parameter is expressed in the relation


SDUdiscardModeRTPS of RNRLC - Parameter is significant only if the timer based SDU




SDUdiscardModeRTPS of RNRLC - Parameter SDUdiscardModeRTPS is defining the SDU




ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

AMRLCRespTimeEDCH of RNRLC - Value of the parameter is expressed in the relation to the




AMRLCRespTimeEDCH of RNRLC - Value of the parameter is expressed in the relation to the


AMRLCRespTimeFACHAndRACH of RNRLC - Value of the parameter is expressed in the


AMRLCRespTimeFACHAndRACH of RNRLC - Value of the parameter is expressed in the


ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration


AMRLCRespTimeHSDSCHRevDCH of RNRLC - defines the reference AM RLC RTT value










AMRLCRelatTXWindowRate2 of RNRLC - The value of the parameter should be smaller than


ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

AMRLCRelatTXWindowRate1 of RNRLC - The value of the parameter should be bigger than or














ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration


ACConfiguration

ACConfiguration

Transmission

Transmission

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HSDPAenabled of WCEL - RLC PDU size 656 bits with HSDPA needs HSDPA being







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Telecom

Transmission

Transmission

Transmission

Transmission

Telecom

Telecom

Telecom

Telecom

N3Requests of RNTRM - If Echo Request is sent N3-REQUESTS times over the path without

DATree of COCO - null (public)

Telecom

Transmission


Transmission

Telecom

Transmission

Transmission

Transmission

Telecom

Telecom

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

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Transmission

Transmission

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Transmission

Transmission

Transmission

Transmission

Transmission

EchoRequestSending of RNTRM - When the Echo Request Sending parameter value is


EchoRequestSending of RNTRM - When the Echo Request Sending parameter value is

ToAWE_NRT_DCH_tti10 of RNC - ToAWE_NRT_DCH_tti10 is the base value for ToAWS_NRT_DCH_tti10 of RNC - ToAWS_NRT_DCH_tti10 is the base value for

Transmission

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BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be

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BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - The BTS Fallback Enabled parameter should be BTSFallbackEnabled of WBTS - BTS Fallback Enabled parameter should be enabled for BTSFallbackEnabled of WBTS - BTS Fallback Enabled parameter shall be enabled for BTSFallbackEnabled of WBTS - BTS Fallback Enabled parameter should be enabled for BTSFallbackEnabled of WBTS - BTS Fallback Enabled parameter should be enabled for BTSFallbackEnabled of WBTS - BTS Fallback Enabled parameter should be enabled for BTSFallbackEnabled of WBTS - BTS Fallback Enabled parameter should be enabled for

Transmission

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HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

PSParameters

HCConfiguration



HSPAOverIur of IUR - Parameter is relevant if HSPA over Iur is enabled. (public)


ACConfiguration

Identification

ACConfiguration

ACConfiguration

PSParameters

ACConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

PSParameters

ACConfiguration

HCConfiguration

PSParameters

PSParameters

PSParameters


ACConfiguration

ACConfiguration

PSParameters

PSParameters

PSParameters

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

PCConfiguration


Radio Resource UtilisationOperation and MaintenanceOperation and MaintenanceRadio Resource UtilisationRadio Resource Utilisation



WRABId of WRAB - WRABId identifies the WRAB object. (public)


FMCGId of FMCG - Check that the relevant FMCG object exists in the database. (public)


FMCIId of FMCI - Check that the relevant FMCI object exists in the database. (public)


FMCSId of FMCS - Check that the relevant FMCS object exists in the database. (public)




HSDPA16KBPSReturnChannel of RNFC - In order to apply 16 kbps UL DCH return channel,








MaxBitRateDLPSNRT of VCEL - Initial bit rate in downlink value should not be greater than the


MaxBitRateULPSNRT of VCEL - Initial bit rate in uplink value should not be greater than the


MaxBitRateULPSNRT of VCEL - Maximum uplink bit rate for PS domain NRT data is set with the


MaxBitRateDLPSNRT of VCEL - Maximum downlink bit rate for PS domain NRT data is set




InitialBitRateDL of VCEL - The value should not be greater than the value of InitialBitRateDL


InitialBitRateUL of VCEL - The value should not be greater than the value of InitialBitRateUL.

















HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Telecom

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

ACConfiguration

Identification

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

HCConfiguration

Transmission

Identification

PSParameters

HCConfiguration

ACConfiguration

The routing area identification (RAI) consists of the LAI and the RAC. The LAI



FMCSId of FMCS - Parameter must point to the existing FMCSId. (public)


FMCIId of FMCI - Parameter must point to the existing FMCIId. (public)




HOPSId of HOPS - Parameter must point to the existing HOPSId. (public)














EbNoSetIdentifier of VCEL - Parameter EbNoSetIdentifier defines the identifier of a

Radio Resource UtilisationOperation and MaintenanceOperation and MaintenanceRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

AuthorisedNetworkPLMN of WANE - null (public)

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationOperation and MaintenanceRadio Resource Utilisation

COCOId of WBTS - In addition to COCOId, C-NBAP ATM interface, VPI and VCI triplet forms


AdminCellState of WCEL - null (public)


IubTransportMedia of WBTS - when Iub selection is IP based the selection of BTS

Operation and MaintenanceRadio Resource UtilisationRadio Resource Utilisation

NBAPCommMode of WBTS - The parameter is significant and modifiable only in the


Telecom

Telecom

ACConfiguration

PSParameters

Transmission

Transmission

Transmission

Transmission

HCConfiguration

HCConfiguration

HCConfiguration

Telecom

Telecom

Telecom

Telecom

Telecom

Telecom

PSParameters

ACConfiguration

Telecom

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

Transmission

ACConfiguration

ACConfiguration

Transmission

LCSInterfaceOption of WSMLC - To be able to enable BroadcastSIB15, the value of LCS BroadcastSIB15 of WBTS - To be able to enable this parameter, also BroadcastSIB15 BroadcastSIB15 of WBTS - To be able to enable this parameter, also BroadcastSIB15 IubTransportMedia of WBTS - Once the COCOId is defined, then IubTransportMedia may


NBAPCommMode of WBTS - This parameter is significant and modifiable only in case



DelayThresholdMid of WBTS - The value of DelayThresholdMid always has to be less DelayThresholdMid2msTTI of WBTS - The value of DelayThresholdMid2msDelayThresholdMax of WBTS - The value of DelayThresholdMid always has to be less DelayThresholdMax2msTTI of WBTS - The value of DelayThresholdMid2msDelayThresholdMid of WBTS - The value of DelayThresholdMin always has to be less DelayThresholdMid2msTTI of WBTS - The value of DelayThresholdMin2ms


HSDPAenabled of WCEL - The cell must be HSDPA enabled (the parameter


HSPAQoSEnabled of WCEL - HSDPA Iur Weight can have a value greater than 0 only if


HSPAQoSEnabled of WCEL - HSDPA Operator Identifier can have a value other than


HSPAQoSEnabled of WCEL - HSDPA Operator Weight can have a value greater


HSDPAUserThreshold of WBTS - HSDPAUserHysterisis must be less than


HSDPAUserHysterisis of WBTS - HSDPAUserThreshold must be greater than


PSParameters

ACConfiguration

Transmission

Transmission

Transmission

Transmission

Transmission

Transmission

HCConfiguration

Transmission

Transmission

PSParameters

Transmission

ACConfiguration

ACConfiguration

PSParameters

HCConfiguration

Transmission

Identification

Identification

Identification

Transmission

PSParameters

Transmission

ACConfiguration

PSParameters

PSParameters

HSUPAEnabled of WCEL - HSUPAEnabled can not be enabled if HSUPAXUsersEnabled


DCellHSDPAEnabled of WCEL - ICREnabled parameter is not allowed to be set to 'Enabled' if


COCOId of WBTS - Once the IPNBId is being defined (that is, has value other than

NBAPCommMode of WBTS - This parameter is not valid if NBAP Communication Mode


BTSFallbackEnabled of WBTS - The BTS Fallback control parameter should be COCOId of WBTS - Once the COCOId is defined, then IubTransportMedia may SchedulingPeriod of WBTS - Value should not be smaller than the value of


NBAPCommMode of WBTS - This parameter is significant and modifiable only in case


NBAPCommMode of WBTS - This parameter is significant and modifiable only in the


NumberEDCHReservedSHOBranchAdditions of WCEL - The value of this parameter must be


AICHTraTime of WCEL - If NBAP Communication Mode has value (NB/RSxxx), the value 1


SharedHSDPAallocation of WBTS - Number of overbooked HSDPA users defines the




SchedulingPeriod of WBTS - Parameter "Scheduling period" defines the value of the












Telecom

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LCConfiguration

LCConfiguration

PSParameters

LCConfiguration

ACConfiguration

ACConfiguration

LCConfiguration

ACConfiguration

ACConfiguration

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LCConfiguration

Identification

LCConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

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Transmission











PrxMeasAveWindow of WBTS - Parameter defines the PrxAlpha-fractile and (1-


PrxAlpha of WBTS - PrxAlpha defines the PrxAlpha-fractile and (1-PrxAlpha)-fractile of the


RRIndPeriod of WBTS - Parameter "Radio Resource Indication Period" defines the


PtxMeasAveWindow of WBTS - Parameter defines the PtxAlpha-fractile and (1-


CPICHtoRefRABoffset of WCEL - CPICHtoRefRABoffset is the ratio of the primary


PtxDPCHmax of WBTS - PtxDPCHmax defines the maximum code channel output power for


PtxAlpha of WBTS - PtxAlpha defines the PtxAlpha-fractile and (1-PtxAlpha)-fractile of the


NBAPCommMode of WBTS - Parameter is significant only in the WBTS cell. (public)


RACHloadIndicationPeriod of WBTS - RACHloadIndicationPeriod defines the reporting


SharedHSDPAallocation of WBTS - Release Timer for shared HSDPA allocation defines the

PSParameters

Transmission

Transmission

Transmission

Identification

Transmission

Transmission

Transmission

Transmission

Identification

Identification

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

SystemInfo Telecom

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ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration

ACConfiguration


SharedHSDPAallocation of WBTS - The parameter defines how the VCC selection is NbrOfOverbookedHSDPAUsers of WBTS - Defines the allowed number of MAC-d flows


CNBAPVCI of COCO - Value of the WBTS-VCI is inherited from the value of the COCO-


ATMInterfaceID of WBTS - In addition to COCOId, C-NBAP ATM interface, VPI and VCI


WBTSId of WBTS - null (public)










RestrictionInterval of RNC - Restriction period length. (public)CellRange of WCEL - If AICHTraTime has value 0, maximum Cell range is 10km. AMRUnderSC of WCEL - AMROverSC must be greater than parameter AMRUnderSC. (public)


AMRUnderTransmission of WCEL - AMROverTransmission must be greater than


PtxTarget of WCEL - PtxTarget is used to calculate overload threshold. (public)


AMRUnderTxNonHSPA of WCEL - AMROverTxNonHSPA must be greater than


PtxTarget of WCEL - PtxTarget is used to calculate overload threshold. (public)


AMRUnderSC of WCEL - AMRUnderSC should be smaller than AMRTargetSC. (public)


AMRUnderTransmission of WCEL - AMRUnderTransmission shall be smaller than


PtxTarget of WCEL - PtxTarget is used to calculate target threshold. (public)


AMRUnderTxNonHSPA of WCEL - AMRUnderTxNonHSPA should be smaller than


PtxTarget of WCEL - PtxTarget is used to calculate target threshold. (public)


AMROverSC of WCEL - Parameter AMRUnderSC must be smaller than parameter


ACConfiguration

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PSParameters

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PSParameters

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HCConfiguration

AMROverTransmission of WCEL - Parameter AMRUnderTransmission must be smaller than


PtxTarget of WCEL - PtxTarget is used to calculate underload threshold. (public)


AMROverTxNonHSPA of WCEL - Parameter AMRUnderTxNonHSPA must be smaller than


PtxTarget of WCEL - PtxTarget is used to calculate the underload threshold. (public)


AdjLAbsPrioCellReselec of HOPL - Defines the absolute priority level of the inter-rat LTE (E-

It must be ensured that AbsPrioCellReselec and AdjLAbsPrioCellReselec always have unique


HSUPA2MSTTIEnabled of WCEL - The parameter is used to enable the feature E-


NBAPCommMode of WBTS - If NBAP Communication Mode has value (NB/RSxxx), NBAPCommMode of WBTS - If NBAP Communication Mode has value (NB/RSxxx),


SRBMapRRCSetupEC of WCEL - Parameter is applicable if CCHSetupEnabled


NBAPCommMode of WBTS - The parameter is modifiable only when value of the parameter


FDPCHEnabled of WCEL - The system checks if Fractional DPCH is enabled in the


PtxDLabsMax of WCEL - PtxDLabsMax defines the planned maximum downlink code power of


RestrictionGroupType of CMOB - CMOB to be connected to the cell with this parameter must


NbrOfSCCPCHs of WCEL - This parameter is applicable if the number of the

MHA of WCEL - The parameter is applied if the value of the management parameter


IntraFreq_Cell_Reselect_Ind of WCEL - The value of Intra-frequency cell reselection indicator AICHTraTime of WCEL - If AICHTraTime has value 0, the maximum Cell radius is 10km.HSDPALayeringCommonChEnabled of WCEL - If HSDPALayeringCommo


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CellBarred of WCEL - A barred cell is a cell on which no UE is allowed to camp. (public)


FDPCHEnabled of WCEL - F-DPCH must be enabled in order to enable simultaneous


SectorID of WCEL - DC HSDPA cell pair must belong to the same sector. (public)




HSDPAenabled of WCEL - Dynamic HS-PDSCH code allocation needs HSDPA to be


DeltaPrxMaxUp of WCEL - Defines the maximum received uplink power increase in


DeltaPrxMaxDown of WCEL - Defines the maximum received uplink power decrease


DeltaPtxMaxUp of WCEL - Defines the maximum transmitted downlink power increase


DeltaPtxMaxDown of WCEL - Defines the maximum transmitted downlink power


DirectedRRCForHSDPALayerEnabled of WCEL - If DirectedRRCForHSDPA


DirectedRRCEnabled of WCEL - If DirectedRRCForHSDPALayerEnhanc parameter

Radio Resource UtilisationOperation and MaintenanceRadio Resource UtilisationRadio Resource UtilisationOperation and MaintenanceOperation and MaintenanceOperation and Maintenance

WRABId of WRAB - WRABId identifies the WRAB object.

Radio Resource UtilisationOperation and MaintenanceOperation and MaintenanceOperation and MaintenanceOperation and Maintenance

ACConfiguration

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ACConfiguration

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ACConfiguration

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HSDPAenabled of WCEL - F-DPCH can be activated only when HSDPA is enabled.


NBAPCommMode of WBTS - The parameter is modifiable only when the value of the


FachLoadThresholdCCH of WCEL - The value of FachLoadMarginCCH must be less than the


FachLoadMarginCCH of WCEL - The value of FachLoadMarginCCH must be less than the


UseOfHCS of WCEL - Indicates whether the serving cell belongs to a Hierarchical Cell


HSDPAenabled of WCEL - HSDPA must be supported in order to apply feature HSDPA 64


HSDPAenabled of WCEL - If parameter HSDPAenabled value is 'Disabled',








SectorID of WCEL - Two (or more) cells can belong to the same sector if they have the


NBAPCommMode of WBTS - HSDPA Measurement Power Offset is modifiable only


HSDPA16KBPSReturnChannel of RNFC - In order to apply 16 kbps UL DCH return channel,


PtxMaxHSDPA of WCEL - This parameter is applicable if the HSDPAenabled value is

Radio Resource UtilisationOperation and MaintenanceRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

HSDPAenabled of WCEL - HS-FACH in DL cannot be activated if HSDPA is disabled.


HCConfiguration

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HSDPAenabled of WCEL - If the parameter HSDPAenabled value is "Disabled", the




HSDPAenabled of WCEL - The system checks if HSDPA is enabled in the cell


HSDPAenabled of WCEL - Code set is applicable only if HSDPA is enabled.


HSDPAenabled of WCEL - HS-PDSCH code upgrade/downgrade


HSDPAenabled of WCEL - HSUPA 2 ms TTI cannot be activated if HSDPA is disabled.


UARFCN of WCEL - If HSUPA is activated, it must be activated for all the cells that use same

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationOperation and Maintenance

MaxBitRateDLPSNRT of WCEL - Initial bit rate in downlink value should not be greater than the


MaxBitRateULPSNRT of WCEL - Initial bit rate in uplink value should not be greater than the


Treselection of WCEL - This InterFreqScaleTresel parameter is used by the Treselection of WCEL - This InterRATScaleTresel parameter is used by the CellBarred of WCEL - Relevant only if the cell is barred. (public)NbrOfSCCPCHs of WCEL - KforCTCH is applicable if the number of the SCCPCHs is 3. PLMNid of IUPS - LAI (Location Area Identification) consists of PLMNid and LAC. LHONRTTrafficBaseLoad of WCEL - Prevents this measurement from being too sensitive.


LHONRTTrafficBaseLoad of WCEL - Prevents this measurement from being too sensitive.


LHODelayOFFHardBlocking of WCEL - The delay for removing load-based handover state


HCConfiguration

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MaxNumberUECmSLHO of WCEL - Limits the number when CM is needed for IF/IS




LHODelayOFFInterference of WCEL - The delay for removing load-based handover state from this


LHODelayOFFInterference of WCEL - The delay for removing load-based handover state from this


LHODelayOFFResRateSC of WCEL - The delay for removing load-based handover state from this


CrQueuingTimeDL of RNPS - The value of the parameter has to be equal to or greater than


RRIndPeriod of WBTS - The value of LHOWinSizeONInterference has to be equal to or


CId of WCEL - null (public)



CableLoss of WCEL - Parameter CableLoss defines value the power offset which use is


SectorID of WCEL - If DC-HSDPA is enabled in any cell of the sector, MIMO must not be


HSDPA64QAMallowed of WCEL - 64QAM must be enabled in order to enable simultaneous


MaxBitRateULPSNRT of WCEL - Maximum uplink bit rate for PS domain NRT data is set with the


MaxBitRateDLPSNRT of WCEL - Maximum downlink bit rate for PS domain NRT data is set


PtxCellMax of WCEL - The value of the PtxCellMax is not recommended to exceed

LCConfiguration

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LCConfiguration

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HSDPAenabled of WCEL - If the HSDPA is enabled for a cell, only this parameter is used.


Tcell of WCEL - Cells handled with the same MAC-hs/ehs scheduler in the BTS are defined


Tcell of WCEL - Cells handled with the same MAC-hs/ehs scheduler in the BTS are defined


NumberEDCHReservedSHOBranchAdditions of WCEL - The value of this parameter must be


MaxNumberUECmSLHO of WCEL - This parameter defines the maximum number of


MaxNumberUEHSPACmNCHO of WCEL - This parameter defines the maximum number of


HSUPA2MSTTIEnabled of WCEL - The parameter value "3" (5760kbps,


MaxBitRateDLPSNRT of WCEL - The value should not be greater than the value of


MaxBitRateULPSNRT of WCEL - The value should not be greater than the value of


MIBPLMNIdIncluded of RNFC - This parameter defines if the PLMN identity broadcasted in T300 of WCEL - The RRC CONNECTION REQUEST retransmission timer. T312 of WCEL - The timer for supervising successful establishment of a T312Conn of WCEL - The timer for supervising successful establishment of a T313 of WCEL - The radio link failure timer (MS timer) (public)T313 of WCEL - The radio link failure timer (MS timer) (public)NASsignVolThrUL of WCEL - This parameter defines threshold for uplink NAS signalling.


NASsignVolThrDL of WCEL - This parameter defines threshold for downlink NAS signalling.


TCrmax of WCEL - The duration for evaluating the allowed amount of cell reselections. (public)PtxSCCPCH1 of WCEL - A recommended value of the transmission power (Ptx) of the each KforCTCH of WCEL - The parameters N and K form CBS DRX Level1 information which is UseOfHCS of WCEL - The NonHCSNcr parameter is needed only if HCS is not used. UseOfHCS of WCEL - The NonHCSTcrMax parameter is needed only if HCS is not used. UseOfHCS of WCEL - NonHCSTcrMaxHyst is needed only if HCS is not used. (public)NBAPCommMode of WBTS - Parameter is significant only in the NBxxx cell. (public)








PSParameters

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HCConfiguration

ACConfiguration

SystemInfo Telecom

PCConfiguration

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PCConfiguration

MaxNumberEDCHCell of WCEL - The value of this parameter must be lower than value of


PBSpolicy of RNFC - This parameter defines a priority-based scheduling policy.


NbrOfSCCPCHs of WCEL - If NbrofSCCPCHs=1, it should not be possible


PFLIdentifier of PFL - Check that the relevant PFL object exists in the database. (public)


AssignedPICPool of WCEL - This parameter indicates which PIC pool the cell is assigned to.


PTxPICH of WCEL - The PICH transmission power may depend on the number of paging

Performance ManagementRadio Resource Utilisation

RestrictionGroupType of CMOB - CMOB to be connected to the cell with this parameter must


PI_amount of WCEL - The PICH transmission power value may depend on the number




NBAPCommMode of WBTS - This parameter is not valid if NBAP Communication Mode NBAPCommMode of WBTS - This parameter is not valid if NBAP Communication Mode


























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Identification

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PtxSCCPCH1 of WCEL - TFCI symbols power is relative to the downlink transmission power of a










Tcell of WCEL - Primary downlink scrambling code and Frame timing offset of a cell


PrxNoise of WCEL - Value of the parameter is defined in the relation to the value of the






PrxNoise of WCEL - The value of the PrxMaxTargetBTS is relative to the system




PrxNoiseAutotuning of WCEL - Parameter defines the initial value for the received noise


PrxTarget of WCEL - Value of the parameter is expressed in relation to the value of the


PrxTarget of WCEL - When adding a WPS bearer, if the parameters WireLessPriorityService


PrxNoise of WCEL - The value of the parameter "Maximum target for the received total wideband


PrxNoise of WCEL - Value of the parameter is defined in the relation to the parameter




NBAPCommMode of WBTS - Parameter is significant only in the NBxxx cell. (public)


PtxPrimaryCPICH of WCEL - Value of the parameter is defined in relation to the power of


ACConfiguration

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ACConfiguration

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PtxMaxHSDPA of WCEL - PtxCellMax must be greater than or equal to PtxMaxHSDPA. (public)








HSDPAenabled of WCEL - Parameter is applicable only if HSDPA is enabled.


FachLoadMarginCCH of WCEL - null (public)


NBAPCommMode of WBTS - The maximum transmission power E-HICH is modifiable only


HSDPAenabled of WCEL - If parameter HSDPAenabled value is 'Enabled',




PtxTarget of WCEL - The value of the parameter is defined in relation to the value of


NBAPCommMode of WBTS - The transmission power offset of the E-AGCH is


NBAPCommMode of WBTS - The transmission power offset of the E-RGCH is








HSDPAenabled of WCEL - Parameter is applied only if HSDPA is enabled. (public)


NBAPCommMode of WBTS - The power offset of the HS-SCCH is modifiable only when


PtxTarget of WCEL - When adding a WPS bearer, if the parameters WireLessPriorityService




PtxPrimaryCPICH of WCEL - Value of the parameter is defined in relation to the


NBAPCommMode of WBTS - If NBAP Communication Mode has value (NB/RSxxx),


PtxPrimaryCPICH of WCEL - Parameter defines the power value in relation to the


NbrOfSCCPCHs of WCEL - null (public)








PtxPrimaryCPICH of WCEL - Parameter defines the power value in relation to the


PtxTargetPSMax of WCEL - PtxTarget must be equal to greater than PtxTargetPSMax


HSDPAenabled of WCEL - If parameter HSDPAenabled value is 'Enabled',


PSParameters

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Transmission

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LCConfiguration

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LCConfiguration

RRIndPeriod of WBTS - Parameter "Radio Resource Indication Period" defines the


PtxTarget of WCEL - PtxTargetPSMax must be lower than or equal to the PtxTarget. (public)


HSDPAenabled of WCEL - Dynamic target threshold PtxTargetPS is applicable only if






PtxMaxHSDPA of WCEL - Note that the BTS does not use more power for HSPA than is set to


PtxTarget of WCEL - The system checks whether the value of PtxTargetTotMin is


PtxMarginCCH of WCEL - null (public)




UseOfHCS of WCEL - Indicates whether the serving cell belongs to a Hierarchical Cell

Routing Area Identification (RAI) consists of LAI and RAC,

PRACH_preamble_retrans of WCEL - The maximum number of preambles allowed in PRACH_preamble_retrans of WCEL - The maximum number of preambles allowed in PRACH_preamble_retrans of WCEL - The maximum number of preambles allowed in NBAPCommMode of WBTS - Parameter is significant only in the NBxxx cell. (public)


RACHloadReportPeriod of WCEL - User should align filtering with reporting period. (public)


RestrictionGroupType of CMOB - CMOB to be connected to the cell must have parameter


Value 0 means that RRC Connection Setup retransmission procedure is not used.





LCConfiguration

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FMCGId of FMCG - Parameter must point to the existing FMCGId (public)


FMCIId of FMCI - Parameter must point to the existing FMCIId. (public)






RachLoadThresholdCCH of WCEL - Value of RachLoadMarginCCH must be less than value


RachLoadMarginCCH of WCEL - The value of RachLoadMarginCCH must be less than the









CellRange of WCEL - If RxDivIndicator has value 1, the maximum Cell radius is 180km. If


LAC of WCEL - This parameter contains the Location Area Code (LAC) of a WCDMA cell. NbrOfSCCPCHs of WCEL - This parameter is applicable if the number of the UseOfHCS of WCEL - SHCS_RATConn parameters is needed only if HCS is used.


CCHSetupEnabled of WCEL - Establishment causes can be used only when CCHSetup is


HSDPALayeringCommonChEnabled of WCEL - Two (or more) cells can belong to the same










ShutdownWindow of WCEL - null (public)ShutdownStepAmount of WCEL - null (public)UseOfHCS of WCEL - Indicates whether the serving cell belongs to a Hierarchical Cell

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SintrasearchConn of WCEL - SintersearchConn parameter should be QqualMin of WCEL - The minimum required quality level in the cell (Ec/No). (public)QqualMin of WCEL - The parameter defines minimum required quality level in the cell UseOfHCS of WCEL - Indicates whether the serving cell belongs to a Hierarchical Cell UseOfHCS of WCEL - Slimit_SearchRATConn parameter is needed only if HCS is used. Treselection of WCEL - This SpeedScaleTresel parameter is used by the UE in high mobility state

UseOfHCS of WCEL - Indicates whether the serving cell belongs to a Hierarchical Cell QqualMin of WCEL - The parameter defines minimum required quality level in the cell QqualMin of WCEL - The parameter defines minimum required quality level in the cell N300 of WCEL - RRC CONNECTION REQUEST retransmission counter. N312 of WCEL - The maximum number of "in sync" indications received from L1 during N312Conn of WCEL - This parameter defines the maximum number of "in sync" indications N313 of WCEL - The maximum number of successive "out of sync" indications received CellBarred of WCEL - Meaningful only when the cell is barred. (public)NBAPCommMode of WBTS - Parameter is significant only in the NBxxx cell. (public)






NCr of WCEL - Defines the maximum number of cell reselections (public)TCrmax of WCEL - This parameter is not needed if TCrmax equals 'Not used'. (public)NBAPCommMode of WBTS - The parameter is modifiable only when the value of the


ToAWS_CCH of WCEL - This parameter defines the starting point of the receiving window. ToAWE_CCH of WCEL - This parameter defines the ending point for the receiving window TrafVolPendingTimeDL of RNPS - Indicates the period of time when forbidden to send any


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PriScrCode of WCEL - Primary downlink scrambling code and UTRA Absolute Radio


If the UTRAN DRX Cycle Length is reduced from the default value, then 'UTRAN originated

MaxNbrOfHSSCCHCodes of WCEL - The amount of HS-SCCH codes is defined with the

Radio Resource UtilisationRadio Resource UtilisationOperation and Maintenance

CommonMCC of RNC - If the Common PLMN id is configured, "CS Core Network Identity" is not WCELMNCLength of WCEL - The value range depends on the WCELMNCLength:

When this parameter is modified, the value of MNC used by the system also changes.

CommonMCC of RNC - If Common PLMN id is configured, "PS Core Network Identity" is not


AntennaCoordLatitudeDegrees of WLCSE - null (public)AntennaCoordLatitudeDegrees of WLCSE - null (public)AntennaCoordLatitudeDegrees of WLCSE - null (public)

AntennaCoordLongitudeDegrees of WLCSE - null (public)

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AntennaCoordLongitudeDegrees of WLCSE - null (public)AntennaCoordLongitudeDegrees of WLCSE - null (public)


WLCSERncId of WLCSE - Cell Identifier cannot be modified if the identification of the Local WLCSEMNCLength of WLCSE - null (public)WLCSEMNC of WLCSE - null (public)


EbNoSetIdentifier of WCEL - Parameter "Eb/No parameter set identifier" identifies the




EbNoSetIdentifier of WCEL - EbNoSetIdentifier identifies the WRAB
















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EbNoSetIdentifier of WCEL - The parameter "Eb/No parameter set identifier" identifies the

Radio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation





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Radio Resource UtilisationOperation and MaintenanceOperation and MaintenanceRadio Resource UtilisationRadio Resource UtilisationRadio Resource Utilisation

HomePlmnMNCLength of WSG - Value range depends from the HomePlmnMNCLength:


AuthorisedNetworkId of WANE - Parameter is used to identify a group of authorised networks.


LCSInterfaceOption of WSMLC - Cell-ID based Position Calculation in SAS can be enabled

EmPoint of WSMLC - This shape cannot have same priority (1-7) than Arc Priority for EmArc of WSMLC - This shape cannot have same priority (1-7) than Point Priority for EmArc of WSMLC - This shape cannot have same priority (1-7) than Point And Altitude EmArc of WSMLC - This shape cannot have same priority (1-7) than Point And Circle Priority EmArc of WSMLC - This shape cannot have same priority (1-7) than 3D Point And Ellipse EmArc of WSMLC - This shape cannot have same priority (1-7) than Point And Ellipse Priority EmArc of WSMLC - This shape cannot have same priority (1-7) than Polygon Priority for NetworkBasedAGPS of WSMLC - LCS Interface option can be set to "None" only if Network LCSInterfaceOption of WSMLC - The parameter LCSInterfaceOption LCSInterfaceOption of WSMLC - LCS Interface option Iupc interface needs to be selected to LCSInterfaceOption of WSMLC - SAS Centric mode can only be selected if LCS Interface NetworkBasedAGPS of WSMLC - The UE based A-GPS and/or Network based A-GPS needs to

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NetworkBasedAGPS of WSMLC - The operator can change this parameter only if the

Point of WSMLC - This shape cannot have same priority (1-7) than Arc Priority but both can Arc of WSMLC - This shape cannot have same priority (1-7) than Point Priority but both Arc of WSMLC - This shape cannot have same priority (1-7) than Point And Altitude Arc of WSMLC - This shape cannot have same priority (1-7) than Point And Uncertainty Arc of WSMLC - This shape cannot have same priority (1-7) than 3D Point And Ellipse Arc of WSMLC - This shape cannot have same priority (1-7) than Point And Uncertainty Arc of WSMLC - This shape cannot have same priority (1-7) than Polygon Priority but both LCSInterfaceOption of WSMLC - LCS Interface option Iupc interface needs to be selected to LCSInterfaceOption of WSMLC - The parameter LCSInterfaceOption


Interfaces Range and step Default value Default value notes

-

0...31, step 1 -

1...65535, step 1 -

-

No (0), Yes (1) No (0)

1...100, step 1 0 Not defined

1...65535, step 1 -

0...999, step 1 -

0...999, step 1 -

2 digits (2), 3 digits (3) 2 digits (2)

1...100, step 1 -

0...255, step 1 -

1...65534, step 1 -

1...100, step 1 -


0...511, step 1 -

Tx Diversity not used (0) Tx Diversity not used

-

0...31, step 1 -

GSM cell (0) GSM cell

0...7, step 1 -

0...1023, step 1 -

No (0), GSM 1900 (1) -

1...65535, step 1 -

1...65535, step 1 -

0...999, step 1 -

0...999, step 1 -


0...7, step 1 -

RNC -> RAC, RNC -> EM

Not defined (0), Network originated configuration action (1), NetAct RNW plan originated

Value is set by the system

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology

Default value is not possible

RAC <-> RNC, EM <-> RNC, Planner <-> RAC



-10...50 dBm, step 0.1 dBm


RNC -> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

The additional neighbour cell can affect the reporting range.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRNC <-> MSC, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RNC -> OMS topology, RNC -


RNC <-> MSC, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RNC -> OMS topology, RNC -




RAC <-> RNC, EM <-> RNCRAC <-> RNC, EM <-> RNC, RACApp <-> RAC






RAC <-> RNC, EM <-> RNC, RACApp <-> RAC


RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, Planner <-> RAC



Tx Diversity not used (0), Tx Diversity in use (1)RNC -> RAC, RNC ->

EMNot defined (0), Network originated configuration action (1), NetAct RNW plan originated





GSM cell (0), GAN cell (1)

RNC <-> UE, RAC <-> RNC, EM <-> RNC, Planner <-> RAC


RNC <-> UE, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RNC -> OMS topology, RNC -

Default value is not possible.

RNC <-> UE, RAC <-> RNC, EM <-> RNC






RNC <-> MSC, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RNC -> UE, RNC -> OMS


RNC <-> MSC, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RNC -> UE, RNC -> OMS


RAC <-> RNC, EM <-> RNCRNC <-> UE, RAC <-> RNC, EM <-> RNC, Planner <-> RAC


SIB (1)

0...33 dBm, step 1 dBm -

0...43 dBm, step 1 dBm -

1...100, step 1 -

1...100, step 1 -

-

0...63, step 1 -

1...65535, step 1 -

-

Not activated (0)

0...20 dB, step 0.5 dB 6 dB

1...65535, step 1 -

0...999, step 1 -

0...999, step 1 -


No HSPASupport (0)

0...255, step 1 -

1...65534, step 1 -

SIB (1)

0...511, step 1 -

Tx Diversity not used (0)

-

-

0...16383, step 1 -

disabled (0), enabled (1) disabled (0)

1...100, step 1 -

1...100, step 1 -

-

0...7, step 1 -

0...65535, step 1 -

6 (6) Minimum value.

RAC <-> RNC, EM <-> RNC, RAC <-> RACApp

No (0), SIB (1), SIBbis (2)

The GSM neighbour cell is included in the system information. RNC <-> UE, RAC <->

RNC, EM <-> RNCDefault value is not possible.















-10...50 dBm, step 0.1 dBm

EM <-> RNC, RAC <-> RNC, RAC <-> RACApp

Not activated (0), Activated (1)

As a default measurement is not activated. RAC <-> RNC, EM <->

RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

All cells in that frequency are blocked (0), Frequency is measured (1)

All cells in that frequency are blocked (0)

As a default all cells in that frequency are blocked if this cell is blocked.

RNC <-> UE, RNC <-> MSC, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RNC -> OMS


RNC <-> UE, RNC <-> MSC, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RNC -> OMS




RAC <-> RNC, EM <-> RNCRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

No HSPASupport (0), HSPASupport (1)

The neighbouring cell does not support HSPA.







The inter-frequency neighbour cell is included in the SIB.RNC <-> UE, RAC <->

RNC, EM <-> RNC, Planner <-> RAC


RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Tx Diversity not used (0), Tx Diversity in use (1)RAC <-> RNC, EM <->

RNC-50...33 dBm, step 1 dBm



-50...33 dBm, step 1 dBm





The target cell of this adjacency is not used as a target for Blind HO.RAC <-> RNC, EM <->

RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology







RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

6 (6), 15 (15), 25 (25), 50 (50), 75 (75), 100 (100)

1...10, step 1 -

-

1...31, step 1 -

1...65535, step 1 -

-

No (0), Yes (1) No (0)

-10...10 dB, step 0.5 dB 0 dB

1...65535, step 1 -

0...999, step 1 -

0...999, step 1 -


0...255, step 1 -

1...65534, step 1 -

SIB (1)

0...511, step 1 -

Tx Diversity not used (0)

-

1...100, step 1 0 Not Defined

1...100, step 1 -


1...100, step 1 -

-

1...255, step 1 -

IP v4 (0), IP v6 (1) IP v4 (0) IP v4

7...39 characters -

0...999, step 1 -

0...999, step 1 -


0...65535, step 1 - Value set by the system

0

-

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RNC -> RAC, RNC -> EM



RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UE, RNC -> OMS topology, RNC ->





-10...50 dBm, step 0.1 dBm


The neighbouring cell can affect the reporting range calculation, if it belongs to the active

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> MSC, RAC <-> RNC, EM <-> RNC, RNC <-> UE, Planner <-> RAC, RNC -> OMS


RNC <-> MSC, RAC <-> RNC, EM <-> RNC, RNC <-> UE, Planner <-> RAC, RNC -> OMS


RNC <-> MSC, RAC <-> RNC, EM <-> RNC, RNC <-> UE, Planner <-> RAC, RNC -> OMS


RAC <-> RNC, EM <-> RNCRNC <-> MSC, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RNC -> OMS topology, RNC -






The intra-frequency neighbour cell is included in the System Information.




Tx Diversity not used (0), Tx Diversity in use (1)RNC <-> UE, RAC <->

RNC, EM <-> RNC-50...33 dBm, step 1 dBm


RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology


RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology




The value is set by the system.

RNC -> OMS topology, RNC -> OMS topology UI, RACApp <-> RAC, RAC <-> RNC, RNC <-> RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

The default value is not possible

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC


RNC <-> UE, RNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC


RAC <-> RNC, EM <-> RNCRNC -> EM, RNC -> RACRNC -> EM, RNC -> RAC

Bit 0: Access Class 0, Bit 1: Access Class 1, Bit 2: Access Class 2, Bit 3: Access Class 3,





1...13, step 1 -

10...100 %, step 10 % 10 %

0...40 characters -

-


-9...-2, step 1 -3

Multiplexing disabled (0)

10...200, step 1 100

1...7000 cps, step 1 cps 7000 cps

1...7000 cps, step 1 cps 2048 cps

1...512 cps, step 1 cps 512 cps

1...7000 cps, step 1 cps 7000 cps

1...7000 cps, step 1 cps 2048 cps

1...512 cps, step 1 cps 512 cps

0...16777215, step 1 -

0...16777215, step 1 -


0...353207, step 1 0

1...1000, step 1 1

0...353207, step 1 0

1...1000, step 1 1

1...353207, step 1 -

0...353207, step 1 -


CBR (0), UBR+ (5) CBR (0)

RNC -> EM -

1...588, step 1 -

1...6, step 1 -

1...65535, step 1 -

0...255, step 1 -

RACApp <-> RAC, RAC <-> RNC, RNC <-> EM, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> EM, RNC <-> RAC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology

Group name can be left empty.

RNC <-> RAC, RNC <-> EM, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology

Forced RNAR (0), Forced CS-DSAC (1), Forced PS-DSAC (2), RNAR (3), CS-DSAC

RNC <-> RAC, RNC <-> EM, RACApp <-> RAC

Traffic restriction disabled.

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Multiplexing disabled (0), Multiplexing enabled (1)RAC <-> RNC, EM <->

RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, RACApp <-> RAC, RNC <-> EMRAC <-> RACApp, RAC <-> RNC, EM <-> RNC

If the MDCR is set to 0 then the UBR+ connection behaves like a normal UBR

RAC <-> RACApp, RAC <-> RNC, EM <-> RNC

The UBR+ connection will get some service even with the lowest priority.


If the MDCR is set to 0, then the UBR+ connection behaves like a normal UBR





RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, RACApp <-> RAC, RNC <-> EMRNC <-> EM, RNC <-> RAC, RAC <-> RACApp

Locked (0), Shutting down (1), Unlocked (2)







RAC <-> RNC, EM <-> RNC, RACApp <-> Planner, RACApp <-> RAC, RNC -> OMS


RAC <-> RNC, EM <-> RNC, RACApp <-> Planner, RACApp <-> RAC

Disabled (0)

1...4294967295, step 1 -

1...588, step 1 -

1...65535, step 1 -

0...255, step 1 -

1...588, step 1 -

0...16777215, step 1 -

0...16777215, step 1 -

0...353207, step 1 0

1...1000, step 1 1

0...353207, step 1 0

1...1000, step 1 1

1...353207, step 1 -

1...353207, step 1 -

CBR (0), UBR+ (5) CBR (0)

RNC -> EM -

DCH & HSDPA (0)

1...65535, step 1 -

0...255, step 1 -

RNC -> EM 10...10 characters - Value set by the system

0...40 characters -

RNC -> EM 1...1023, step 1 -

RNC -> EM 0...65534, step 1 - Value set by the system

VCC is not in Bundle (0)

1...99, step 1 -

1...20, step 1 0

EM <-> RNC

RNC -> EM -

RNC -> EM 0...353207, step 1 -

RNC -> EM 0...353207, step 1 -

RNC -> EM 1...14, step 1 -


Disabled (0), Enabled (1)

In the default configuration AAL2 VCC is not configured as fallback.

RAC <-> RNC, EM <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RAC

Stringent (0), Stringent bi-level (1), Tolerant (2), Stringent & Stringent bi-level (3), Stringent &

Stringent & Stringent bi-level & Tolerant (4)





RAC <-> RNC, EM <-> RNC, RACApp <-> Planner, RACApp <-> RAC




RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> EM, RNC <-> RAC, RAC <-> RACApp

If the MDCR is set to 0, the UBR+ connection behaves like a normal UBR connection

RNC <-> EM, RNC <-> RAC, RAC <-> RACApp

The UBR+ connection receives some service even with the lowest priority.


If the MDCR parameter is set to 0, the UBR+ connection behaves like a normal UBR


The UBR+ connection receives some service even with the lowest priority.







EM <-> RNC, RAC <-> RNC, RACApp <-> RAC

DCH & HSDPA (0), HSDPA (1), DCH (2), HSUPA (5), HSPA (6), DCH & HSPA (7)

DCH & HSDPA value is the default for the ATM EP. RAC <-> RNC, EM <->







VCC is not in Bundle (0), VCC is in first Bundle (1), VCC is in second Bundle (2)




Default profile for the scheduling weights is applied with the NPS1 HW.


RNC -> EM 1...12, step 1 -

RNC -> EM 0...320, step 1 -

RNC -> EM 1...588, step 1 -

RNC -> EM UNI (0), NNI (1) -

0...16777215, step 1 -

0...16777215, step 1 -


0...353207, step 1 0

1...1000, step 1 1


0...353207, step 1 0

1...1000, step 1 1

- Value set by the system

1...353207, step 1 -

1...353207, step 1 -


CBR (0), UBR+ (5) CBR (0)

1...588, step 1 -

RNC -> EM -

1...65535, step 1 -

0...255, step 1 -

-

1...65535, step 1 -

Calculated (1)

Created (1)

1...65535, step 1 -

1...588, step 1 -

0...16777215, step 1 -

0...16777215, step 1 -



RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, RACApp <-> RAC, RNC <-> EM, RNC -> OMS topology, RNC -> OMS topology RAC <-> RACApp, RAC <-> RNC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology


RAC <-> RACApp, RAC <-> RNC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology


RNC -> EM, RNC -> OMS topology, RNC -> OMS topology UIRAC <-> RACApp, RAC <-> RNC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology




RNC -> EM, RNC -> OMS topology, RNC -> OMS topology UI

Blocked (1), Working (2), Blocked, not connected (3)RAC <-> RNC, EM <->





RAC <-> RNC, RACApp <-> RAC, RNC <-> EM, RNC -> OMS topology, RNC -> OMS topology RNC <-> EM, RNC <-> RAC, RAC <-> RACApp, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology










RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, RNC -> OMS topology, RNC ->



Not calculated (0), Calculated (1)


Not created (0), Created (1)

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, RACApp <-> RAC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology




RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, RACApp <-> RAC, RNC <-> EM, RNC -> OMS topology, RNC -> OMS topology

0...353207, step 1 0

1...1000, step 1 1


0...353207, step 1 0

1...1000, step 1 1


1...353207, step 1 -

1...353207, step 1 -


CBR (0), UBR+ (5) CBR (0)

RNC -> EM -

1...65535, step 1 -

0...255, step 1 -

Off (0), On (1) Off (0)

n VCC for WAM (2)

None (0), Dynamic (2) Dynamic (2)

0...100 %, step 1 % 95 %

0...1499, step 1 -

4800 CPS

0...255, step 1 -

1...588, step 1 -

RNC -> EM -

0...16777215, step 1 -

0...353207, step 1 0

1...353207, step 1 -

CBR (0), UBR+ (5) CBR (0)

none (1), full (2) none (1) none

1...65534, step 1 -

Disabled (0)

-6...0 dB, step 1 dB -3 dB




The UBR+ connection shall get some service even with lowest priority.RNC -> EM, RNC ->

OMS topology, RNC -> OMS topology UIRAC <-> RACApp, RAC <-> RNC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology



The UBR+ connection shall get some service even with lowest priority.RNC -> EM, RNC ->

OMS topology, RNC -> OMS topology UI

Blocked (1), Working (2), Blocked, not connected (3)RAC <-> RNC, EM <->





RAC <-> RNC, RACApp <-> RAC, RNC <-> EM, RNC -> OMS topology, RNC -> OMS topology RNC <-> EM, RNC <-> RAC, RAC <-> RACApp, RNC -> OMS topology, RNC -> OMS topology






EM <-> RNC, RAC <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Not used (0), 1 VCC for WAM (1), n VCC for WAM (2), One A2EA for BTS (3)

n VCC for WAM numbering rule supports the configuration of several AAL2 user plane

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> RAC, EM <-> RNC, RAC <-> RACAppEM <-> RNC, RAC <-> RNC, RACApp <-> RACRNC -> EM, RNC -> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RAC

1...353207 CPS, step 1 CPS

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> Planner, RACApp <-> RAC





RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RACApp, RAC <-> RNC, EM <-> RNC


RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> EM, RNC <-> RAC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> OMS topology, RNC -> OMS topology UI, RNC -> RAC, RNC -> EMRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


Directed Retry of AMR call Inter-system Handover is disabled by default.


-

1...100, step 1 -

Disabled (0)

Disabled (0)

Disabled (0)

Disabled (0)

Disabled (0)

-10...0 dB, step 0.5 dB -3 dB

-10...0 dB, step 0.5 dB -3 dB

-10...0 dB, step 0.5 dB -1 dB

-10...0 dB, step 0.5 dB -3 dB

6 MeasRep

6 MeasRep

0.5 s (2)

1...60 s, step 1 s 10 s

1...60 s, step 1 s 2 s

1...120 s, step 1 s 30 s

0 MeasRep Not used

-60...0 dB, step 1 dB -3 dB

-10...0 dB, step 1 dB -3 dB

-10...0 dB, step 1 dB -1 dB

-10...0 dB, step 1 dB -3 dB

320 ms (11)

Disabled (0)

Disabled (0)

Disabled (0)

Disabled (0)

0.5...10 s, step 0.1 s 0 s

-

1...100, step 1 -








The handover cause is not enabled.














UE should start CM early enough for successful ISHO. This is possible also with quite

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

1...120 MeasRep, step 1 MeasRep

Normally BSIC and RSSI measurements take only 2-3 s, so maximum 6 reports will




0.5 s (2), 1 s (3), 2 s (4), 3 s (5), 4 s (6)


Minimum Measurement Interval needs to be short enough to allow GSM measurements


The minimum interval between repetitive SLHOs is 30 s.RAC <-> RNC, EM <->

RNC, RACApp <-> RAC0...20 MeasRep, step 1 MeasRep


Filtering period approximates 10 ms (8), Filtering period approximates 15 ms (9),

Filtering period approximates 10 ms (8)

Filtering period approximates 10 ms


UE should start CM early enough for successful ISHO. This is possible also with quite

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0 ms (0), 10 ms (1), 20 ms (2), 40 ms (3), 60 ms (4), 80 ms (5), 100 ms (6), 120 ms (7), 160 ms

Relatively short time is needed to react to the fast changes in UE power.


This HO type is not allowed (0), This HO type is allowed (1), This HO type is allowed

This HO type is not allowed (0)

IMSI based inter-RAT handover or cell change is not allowed.RAC <-> RNC, EM <->

RNC, RACApp <-> RACDisabled (0), Enabled (1)

ISHO Cancellation due to CPICH EcNo is disabledRAC <-> RNC, EM <->


ISHO Cancellation due to CPICH RSCP is disabled.RAC <-> RNC, EM <->


ISHO Cancellation due to due to a low measured Downlink DPCH Transmission



ISHO Cancellation due to UE TX Power is disabled.RACApp <-> RAC, RAC

<-> RNC, EM <-> RNCRNC -> RAC, RNC -> EM





Disabled (0)

Disabled (0)

Disabled (0)

Disabled (0)

Disabled (0)

-10...0 dB, step 0.5 dB -1 dB

-10...0 dB, step 0.5 dB -3 dB

-10...0 dB, step 0.5 dB -1 dB

-10...0 dB, step 0.5 dB -3 dB

6 MeasRep

6 MeasRep

0.5 s (2)

1...60 s, step 1 s 10 s

1...60 s, step 1 s 2 s

1...120 s, step 1 s 30 s

0 MeasRep Not used

-10...0 dB, step 1 dB -3 dB

-10...0 dB, step 1 dB -3 dB

-10...0 dB, step 1 dB -1 dB

-10...0 dB, step 1 dB -3 dB

1280 ms (13)

-6...6 dB, step 0.5 dB 2 dB

all (0), NRT (1) all (0)

0...2, step 0.1 0

0.5 s (2)

100 ms (6)

0...14.5 dB, step 0.5 dB 4 dB

DSR is not allowed (0) DSR is not allowed.

0.5 s (2)

640 ms (12)

















This HO type is not allowed (0), This HO type is allowed (1), This HO type is allowed

This HO type is not allowed (0)

IMSI based inter-frequency handover is not allowed.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


6 measurement reports is enough, because the CM delay is about 3.5 sRAC <-> RNC, EM <->

RNC, RACApp <-> RAC1...32 MeasRep, step 1 MeasRep


0.5 s (2), 1 s (3), 2 s (4), 3 s (5), 4 s (6)


In case of unsuccessful IFHO attempt, 2 s wait time is enough.RAC <-> RNC, EM <->

RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC



Filtering period approximates 10 ms (8), Filtering period approximates 15 ms (9),


Filtering period approximates 10 ms

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC



Multi-Band Load Balancing due to mobility is allowed to all RAB combinations


Reporting range is relative to the measurement result of the best active set cell


No periodical reporting (0), 0.25 s. Not allowed (1), 0.5 s (2), 1 s (3), 2 s (4), 4 s (5), 8 s (6), 16 s



RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -

Old default value (2.5 dB) will cause less SHO overhead, which is good, but to avoid active


DSR is not allowed (0), DSR based SHO is not allowed (1), DSR based SHO is enabled (2)





0...14.5 dB, step 0.5 dB 6 dB

-10...6 dB, step 0.5 dB 0 dB

-10...6 dB, step 0.5 dB 2 dB

-

1...100, step 1 -

-24...0 dB, step 1 dB -9 dB

1280 ms (13)

-24...0 dB, step 1 dB -12 dB

100 ms (6)

-102 dBm

1280 ms (13)

-105 dBm

100 ms (6)

Not allowed (0)

2...3, step 1 3

0.5 s (2)

100 ms (6)

0...7.5 dB, step 0.5 dB 2 dB

0...7, step 1 0 Lowest HCS priority

-110 dBm

-95 dBm

0...60 s, step 10 s 0 s Not used

0...60 s, step 1 s 10 s

0...7, step 1 0 Lowest priority level

0...7, step 1 0

-50...50 dB, step 1 dB 0 dB

-101 dBm

-95 dBm

3 dB (0)

-


With 4 dB 'Addition window' 6 dB should be used here.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -

Filtering period of 200 ms (0), Filtering period approximates 300 ms (1), Filtering period


Higher layer filtering period approximates 600 msRNC -> RAC, RNC ->






This should be 2..3 dB above the HHO Threshold value.RNC <-> UE, RAC <->

RNC, EM <-> RNC, RACApp <-> RAC



Relatively high value needed in order to have successful CM measurements & ISHO.



Relatively fast reporting after triggering works better with UE.RNC <-> UE, RAC <->


-115...-25 dBm, step 1 dBm

3dB difference is needed between trigger and cancel parameters.RNC <-> UE, RAC <->




Filtering period of 200 ms (0), Filtering period approximates 300 ms (1), Filtering period

Filtering period of 200 ms (0)

Higher layer filtering is not used


-115...-25 dBm, step 1 dBm

This should be 2..3 dB below the HHO Cancel.



Relatively fast reporting after triggering works better with UE.RAC <-> RNC, EM <->

RNC, RACApp <-> RACNot allowed (0), Allowed (1)

IMSI based intra-frequency handover is not allowed.RNC <-> UE, RAC <->

RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC




RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -

-110...-37 dBm, step 1 dBm


-110...-47 dBm, step 1 dBm

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

-115...-25 dBm, step 2 dBm

Higher minimum RX level in the target GSM cell improves the call success in GSM cell.


-110...-47 dBm, step 1 dBm


3 dB (0), 6 dB (1), 9 dB (2), 12 dB (3), 15 dB (4), 18 dB (5), 21 dB (6), 100 dB. Infinity (7)




1...100, step 1 -

-24...24 dB, step 0.5 dB 1 dB


-24...0 dB, step 0.5 dB -24 dB

-24...0 dB, step 0.5 dB -13 dB

-24...0 dB, step 0.5 dB -14 dB

-100 dBm

-95 dBm


0...60 s, step 1 s 10 s

-50...100 dB, step 1 dB 2 dB


0...7, step 1 0 Lowest priority

0...7, step 1 0 Lowest Priority

0...7, step 1 0 Lowest priority


0...7, step 1 0

-50...50 dB, step 1 dB 0 dB

-50...50 dB, step 1 dB 0 dB

-24...0 dB, step 1 dB -18 dB

-115 dBm

3 dB (0)

2 dB (0)

-92 dBm

-

1...100, step 1 -

0...7, step 1 1

-140 dBm Minimum value.

0...62 dB, step 2 dB 0 dB Minimum value.

0...62 dB, step 2 dB 0 dB Minimum value.

-

1...10, step 1 -



RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

-115...-25 dBm, step 1 dBm


-115...-25 dBm, step 1 dBm

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

-119...-25 dBm, step 2 dBm






-115...-25 dBm, step 1 dBm







E-UTRA neighbour frequency has higher absolute priority than serving WCDMA cell,


-140...-44 dBm, step 2 dBm

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EM


The value is set by the system



-24...0 dB, step 0.5 dB -24 dB


-50...50 dB, step 1 dB 0 dB

-50...50 dB, step 1 dB 0 dB

-24...0 dB, step 1 dB -18 dB

-115 dBm

3 dB (0)

2 dB (0)

8 MeasRep

No (0), Yes (1) Yes (1)

No (0), Yes (1) No (0)

-6...6 dB, step 0.1 dB 1 dB

-6...6 dB, step 0.5 dB 2 dB

-

1...100, step 1 -

HSDPA available (1)

HSUPA available (1)

-6...6 dB, step 0.1 dB 2.5 dB

-6...6 dB, step 0.5 dB 3.5 dB

-

0...65535, step 1 -

49152...65535, step 1 -

1...65535, step 1 -

-

0...65535, step 1 -

49152...65535, step 1 -

1...4095, step 1 -

-

1...65535, step 1 -

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

-119...-25 dBm, step 2 dBm








The neighbouring cell can participate in Inter-RNC Soft Handover.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRRC connection release is not required.

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EM






HSDPA unavailable (0), HSDPA available (1)


HSUPA unavailable (0), HSUPA available (1)

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> EM, RNC -> RAC, RNC -> OMS topology, RNC -> OMS topology UIRNC -> EM, RNC -> OMS topology, RNC -> OMS topology UI

Blocked (1), Working (2), Blocked, not connected (3)RNC -> OMS BTS Conn

Res, RNC -> OMS topology, RNC -> OMS topology UI, RNC -> EM, RNC -> EM, RNC -> RAC, RNC -> OMS topology, RNC -> OMS topology UIRNC <-> EM, RNC <-> RAC, RAC <-> RACApp, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, RACApp <-> RAC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology


RNC -> EM, RNC -> OMS topology, RNC -> OMS topology UI

Blocked (1), Working (2), Blocked, not connected (3)RNC -> OMS BTS Conn

Res, RNC -> OMS topology, RNC -> OMS topology UI, RNC -> EM, RNC -> EM, RNC -> RAC, RNC -> OMS topology, RNC -> OMS topology UIRNC -> EM, RNC -> RAC





RNC <-> EM, RNC <-> RAC, RAC <-> RACApp, RNC -> OMS topology, RNC -> OMS topology


49152...65535, step 1 -

0...63, step 1 34

7...15 characters -

1...65534, step 1 -

0...63, step 1 0

0...63, step 1 46

-

1...8, step 1 -

0...63, step 1 26

0...63, step 1 18

0...63, step 1 10

0...63, step 1 34

Disabled (0)

640 ms (6)

-

0...1024, step 1 1024 NRI value not used.


0 decihours

No (0), Yes (1) No (0)

0...4095, step 1 -

0...999, step 1 -

0...999, step 1 -


-

1...255, step 1 -

0...10800 s, step 10 s 0 s

1...50, step 1 20

0...120 s, step 1 s 3 s

WO-EX (0)

RNC <-> EM, RNC <-> RAC, RAC <-> RACAppRNC <-> EM, RNC <-> RAC, RAC <-> RACApp

Default value 34 refers to AF41 PHB (RFC2597, 0b100010)RNC <-> EM, RNC <->

RAC, RAC <-> RACAppDefault value is not possible

RNC -> EM, RNC -> RAC, RNC -> OMS topology, RNC -> OMS topology UIRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EM



RAC <-> RACApp, RNC <-> RAC, RNC <-> EM, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


AAL2 PT signaling over the Iu-CS is disabled


640 ms (6), 1280 ms (7), 2560 ms (8), 5120 ms (9)

The same default value is used for both the CS and PS domain.RAC <-> RNC, EM <->

RNC, RACApp <-> RACR99 (1), Rel4 (2), Rel5 (3), Rel6 (4), Rel7 (5), Rel8 (6), Rel9 (7)



IMSI attach/detach not allowed (0), IMSI attach/detach allowed (1)

IMSI attach/detach allowed (1)

MSs should apply IMSI attach and detach procedureRNC <-> MSC, Planner

<-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -

0...255 decihours, step 1 decihours

0 = Periodic location updating should not be usedEM <-> RNC, RAC <->

RNC, RAC <-> RACAppRNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS


RNC <-> UE, RNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC,




RAC <-> RNC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology UIRNC -> RAC, RNC -> EM



RACApp <-> RAC, RAC <-> RNC, RNC <-> EM, RNC -> OMS topology, RNC -> OMS topology RNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACApp

The amount of cells updated at a time is 20 cells.RAC <-> RNC, EM <->

RNC, RAC <-> RACAppPlanner <-> RAC, RAC <-> RNC, EM <-> RNC, RAC <-> RACApp

WO-EX (0), BAL-US (1), BAR-US (2)

Off (0)

1026...49150, step 1 1026

-

Supported (1) Supported

Disabled (0)

1...4294967295, step 1 -

30...300 s, step 1 s 60 s

1...180 s, step 1 s 15 s

1...120 s, step 1 s 5 s

1...180 s, step 1 s 15 s

7...15 characters -

1...4095, step 1 0 Value not defined.

7...15 characters 0.0.0.0

0...8, step 1 0

-

1...255, step 1 -

1...5, step 1 255 Not defined.

0...15 characters 0


0...999, step 1 65535 Not Defined.



1...255, step 1 -

0...10 bits, step 1 bits 0 bits

0...10 bits, step 1 bits 0 bits

0...1024, step 1 1024 NULL NRI is not used.

0...1024, step 1 1024 Null NRI is not used.

0...100 %, step 1 % 0 %




Off (0), On (1), Auto-on (2)


international network 0 (0), international network 1 (4), national network 0 (8), national network 1



Not supported (0), Supported (1)



RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology

0 means that the IPQM reference is not given and default values are used.




RNC -> OMS topology, RNC -> OMS topology UI, RACApp <-> RAC, RAC <-> RNC, RNC <-> RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

ICR operator name is left empty.

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EM


RNC -> OMS topology, RNC -> OMS topology UI, RACApp <-> RAC, RAC <-> RNC, RNC <-> RNC <-> MSC, EM <-> RNC, RAC <-> RNC, RACApp <-> RAC

The value 0 means that for the Multi-Operator Core Network feature, all NRIs are unknown;

RNC <-> SGSN, EM <-> RNC, RAC <-> RNC, RACApp <-> RAC

The value 0 means that for the Multi-Operator Core Network feature, all NRIs are unknown;

RNC <-> MSC, EM <-> RNC, RAC <-> RNC, RACApp <-> RACSGSN -> RNC, EM <-> RNC, RAC <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RNC <-> MSC, EM <-> RNC, RAC <-> RNC, RACApp <-> RAC, RNC <-> RNC <-> UE, RNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC




2...3 digits, step 1 digits 2 digits

640 ms (6)

-

Supported (1)

No (0), Yes (1) No (0)

0...4095, step 1 -

0...999, step 1 -

0...999, step 1 -


-

1...255, step 1 -

0...10800 s, step 10 s 0 s

1...50, step 1 20

0...120 s, step 1 s 3 s

WO-EX (0)

Off (0)

-




1...4294967295, step 1 -

1...10 s, step 1 s 4 s

30...300 s, step 1 s 60 s

1...180 s, step 1 s 15 s

1...120 s, step 1 s 5 s

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -

640 ms (6), 1280 ms (7), 2560 ms (8), 5120 ms (9)

The same default value is used both for CS and PS domain.RAC <-> RNC, EM <->

RNC, RACApp <-> RACR99 (1), Rel4 (2), Rel5 (3), Rel6 (4), Rel7 (5), Rel8 (6), Rel9 (7)


EM <-> RNC, RNC <-> SGSN, RNC <-> RAC, RAC <-> RACApp


EM <-> RNC, RAC <-> RNC, RAC <-> RACAppRNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS






RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RNC -> RAC, RNC -> EM



RACApp <-> RAC, RAC <-> RNC, RNC <-> EM, RNC -> OMS topology, RNC -> OMS topology RNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACApp

The amount of cells updated at a time is 20 cells.RAC <-> RNC, EM <->

RNC, RAC <-> RACAppPlanner <-> RAC, RAC <-> RNC, EM <-> RNC, RAC <-> RACApp

WO-EX (0), BAL-US (1), BAR-US (2)


Off (0), On (1), Auto-on (2)




RNC <-> SGSN, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> SGSN, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> SGSN, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -

Network Mode of Operation I (0), Network Mode of Operation II (1)

Network Mode of Operation II (1)

Network Mode of Operation II



RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

1...180 s, step 1 s 15 s

7...15 characters -

1...4095, step 1 0 Value not defined.


0...8, step 1 0

-

1...255, step 1 -

Disabled (0)

Supported (1)

0...63, step 1 46

0...63, step 1 0 Best Effort

0...63, step 1 34

100 ms

0...320 ms, step 0.01 ms 70 ms

0...320 ms, step 0.01 ms 50 ms

Disabled (0)

0...63, step 1 34 AF4 PHB (AF4, 100010)

0...63, step 1 34 AF4 PHB (AF4, 100010)

Not Supported (0)

1...4095, step 1 0

-

1...65535, step 1 -

3GPP, NSN (0)

Supported (1)

9600 kbps Maximum Value.

1026...49150, step 1 1026

1...65534, step 1 -

-


1...4294967295, step 1 -

Rel5 (3)

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology

0 means that the IPQM reference is not given and the default values are used.


Not defined (0), Network originated configuration action (1), (NetAct RNW plan originated


RNC -> OMS topology, RNC -> OMS topology UI, RACApp <-> RAC, RAC <-> RNC, RNC <-> RAC <-> RNC, EM <-> RNC, RACApp <-> RAC


AAL2 PT signaling over the Iur is disabled

EM <-> RNC, RAC <-> RNC, RAC <-> RACApp, Planner <-> RAC


RACApp <-> RAC, RAC <-> RNC, EM <-> RNC

Expedited forwarding Per-Hop-Behavior (RFC2475)RNC <-> RAC, RNC <->

EM, RAC <-> RACAppRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0.01...320 ms, step 0.01 ms

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


HSDPA congestion control is disabled

RNC <-> RAC, RNC <-> EM, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

HSPA over Iur disabled (0), HSPA over Iur enabled (1)

HSPA over Iur disabled (0)

RNC <-> RAC, RNC <-> EM, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Not Supported (0), Supported (1)

I-BTS Sharing is not supported.

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EM



RACApp <-> RAC, RAC <-> RNC, RNC <-> EM, RNC -> OMS topology, RNC -> OMS topology

A default value is not possible.


3GPP, NSN (0), Mode 1 (1), Mode 2 (2), Mode 3 (3), Mode 4 (4), Mode 5 (5), Mode 6 (6), Mode 7

Do not use any other value unless specifically advised by Nokia Siemens Networks.




0...9600 kbps, step 128 kbps

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, Planner <-> RAC, RNC -> OMS topology, RNC -








R99 (1), Rel4 (2), Rel5 (3), Rel6 (4), Rel7 (5), Rel8 (6), Rel9 (7)

0...999, step 1 -

0...999, step 1 -


3G-WCDMA RNC (0)

DISABLED (0)

0...1, step 0.0001 0.1

Not Supported (0)

0...50 ms, step 1 ms 0 ms


0...100 ms, step 1 ms 0 ms


1000...1472, step 1 1428


0 dBm

-126 dBm


1...10000, step 1 0

1...10000, step 1 0

1...10000, step 1 1000 -

1...10000, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC





3G-WCDMA RNC (0), I-HSPA Adapter (1)

The neighbouring RNW element type is 3G WCDMA RNC.EM <-> RNC, RAC <->

RNC, RAC <-> RACAppDISABLED (0), ENABLED (1)

The overbooking is disabled for the Iur interface.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


The 3GPP message RNSAP Radio Link Congestion Indication / Preemption Required

RACApp <-> RAC, RAC <-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

AMR cannot be directed to non-preferred layer


-115...-25 dBm, step 1 dBm

Blind HO is not done because of high RSCP.


-115...-25 dBm, step 1 dBm

Blind HO is not done because of low RSCP.


No extra weight is given to cell due to low HSPA loadRAC <-> RNC, EM <->


Band capability is not used in layer selection.


Load is not used in layer selection

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology

RSCP is not used in layer selection.


Preferred layer not defined.










0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

-

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0









Value is set by the system.



























0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

1...50, step 1 -

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0

0...16383, step 1 0


































0...16383, step 1 0

0...16383, step 1 0

0...11 characters -

0...50 characters -

1...65534, step 1 -

1...65534, step 1 -

FlexiBTS (3) FlexiBTS (3)

3...10 characters WN7.0

Ptxnctotal (1)

0...100, step 1 10

1...60 s, step 1 s 10 s

2 frames -

0...100, step 1 0 -

0.1...0.5, step 0.1 0.2 -

1.5 dB (2) 1.5 dB

75 kbps

600 kbps

35 kbps

309 kbps

133 kbps

0.6 (5)

1.0 dB (1)

1...5, step 0.5 2 -

Reordering not expected

1...65535, step 1 256

1...255 s, step 1 s 5 s

0...3 dB, step 0.5 dB 0 dB


Preferred layer not defined



RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp, RNC -> OMS topology, RNC -> OMS topology WBTS <-> RNC, RNC <-> EM, RNC <-> RAC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp, RNC <-> WBTSRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

PtxTotal (0), Ptxnctotal (1), PtxnonHSPA (2)

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

1...256 frames, step 1 frames

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Predefined bit rate set is not in use (0), Predefined bit rate set is in use (1)

Predefined bit rate set is not in use (0)


0.5 dB (0), 1.0 dB (1), 1.5 dB (2), 2.0 dB (3)


PtxTotal is checked (0), Spreading code usage is checked (1), Both PtxTotal and spreading

Both PtxTotal and spreading code usage are checked (2)

Both PtxTotal and spreading code usage are checked.RAC <-> RNC, EM <->











RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0.4 (0), 0.44 (1), 0.48 (2), 0.52 (3), 0.56 (4), 0.6 (5), 0.64 (6), 0.68 Puncturing from 1/3 to

EM <-> RNC, RAC <-> RNC, RNC <-> WBTS, RACApp <-> RAC, AC <-> RNC

0.5 dB (0), 1.0 dB (1), 1.5 dB (2), 2.0 dB (3)

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <->

Reordering not expected (0), Reordering expected (1)

Reordering not expected (0)

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <-> RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <-> RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

1...15, step 1 10

1...15, step 1 13

1...15, step 1 12

1...15, step 1 11

1...15, step 1 15

1...15, step 1 15

1...15, step 1 15

1...15, step 1 15

40 ms (2)

1...4, step 1 2

Value set by the system



1...10 slot, step 1 slot 8 slot

0...10 s, step 0.1 s 3 s

168 octets

1...10, step 1 2

1...6 dB, step 1 dB 3 dB

3...65535, step 1 15

0 frames

0...25 dB, step 1 dB 15 dB

0...255 s, step 1 s 255 s

0...10 dB, step 1 dB 2 dB -

0...60 dB, step 0.5 dB 255 dB

-

1...1, step 1 -

7 frames

0...20 s, step 0.5 s 2 s

0.1...1 dB, step 0.1 dB 0.3 dB -

0.03 dB -

3...255, step 1 15

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RAC

Discard Timer not used (0), 20 ms (1), 40 ms (2), 60 ms (3), 80 ms (4), 100 ms (5), 120 ms (6),

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RAC, RNC

Header compression not used (0), Algorithm RFC2507 used (1)

Header compression not used (0)

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

As a default object is frozen for a maximum of 3 seconds.RNC <-> UE, RAC <->

RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <->

60...4096 octets, step 1 octets


As a default RNC performs a maximum of two re-attempts.RAC <-> RNC, EM <->

RNC, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <-> RAC <-> RNC, EM <-> RNC, RAC <-> RACApp


Power control preamble not used.

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

'OFF' - Iu UP support mode for predefined SDU sizes version 1 is used for the CS AMR


Noise autotuning is not limited.




RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RAC <-> RACApp


RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

0.01...0.1 dB, step 0.01 dB

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <->

0.5...15, step 0.5 3

16384

30 kbps

273 kbps

15 kbps

120 kbps

60 kbps

500 kbps

8192...16777215, step 1 1000000

TPC value used (0)

Not Used (0), Used (1) Not Used (0)

0...15 s, step 1 s 5 s

0...15 s, step 1 s 3 s

0...15 s, step 1 s 1 s

0...15 s, step 1 s 1 s

0...15 s, step 1 s 3 s

0...15 s, step 1 s 5 s

0...15 s, step 1 s 5 s

0...15 s, step 1 s 0 s

0...15 s, step 1 s 1 s

0...15 s, step 1 s 3 s

0...15 s, step 1 s 3 s

0...15 s, step 1 s 1 s



Not defined (0) Not defined

1...20, step 1 10

99% (23)

0...255 s, step 1 s 60 s

RAC <-> RNC, EM <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RAC <-> RACApp

Bit 0: UL CS speech class A DCH, Bit 1: UL DCH of the CS conversational data, Bit

100 0000 0000 0000 in binary notation














0.4 (0), 0.44 (1), 0.48 (2), 0.52 (3), 0.56 (4), 0.6 (5), 0.64 (6), 0.68 Puncturing from 1/3 to

0.68 Puncturing from 1/3 to 1/2 coding rate (7)

RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

TPC value used (0), TPC value not used (1)

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Not defined (0), 2 digits (2), 3 digits (3)

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

75% (7), 85% (10), 90% (13), 95% (16), 97,5% (20), 99% (23), 99,9% (30), almost 100% (50)

Gives 99% confidence interval.


0...120 s, step 1 s 0 s

Disabled (0)

Disabled (0)

0...1440 min, step 1 min 29 min

0...7, step 1 7 Value set by the system

0...7, step 1 2

1...8, step 1 2

7...15 characters -

7...15 characters -


10...300 s, step 10 s 20 s

700 ms

2000 ms

5...30 s, step 1 s 10 s

-

7...64 characters -

0...15 characters -

20...1800 s, step 10 s 60 s

1...4095, step 1 -

-

1...4, step 1 4

1...4, step 1 4

1...4, step 1 4

1...4, step 1 4

1...4, step 1 3

1...4, step 1 2

1...4, step 1 2

1...4, step 1 3

1...4, step 1 3

1...4, step 1 3

1...4, step 1 3


No extended time for UEs not supporting Cell/URA_PCH is used.RAC <-> RNC, EM <->




RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EMRACApp <-> RAC, RAC <-> RNC, RNC <-> EMRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0...5200 ms, step 100 ms

DRX Cycle length 640ms assumed. The first paging repetition should be executed as


0...5200 ms, step 100 ms

DRX Cycle length 640ms assumed. The second paging repetition should be executed only

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EM



RNC -> NetAct topology, RNC -> OMS topology, RNC -> OMS topology UIPlanner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -



PS RT services not available (0), PS conversational service available (1), PS

PS streaming service available (2)

EM <-> RNC, RAC <-> RNC, RACApp <-> RACRNC <-> UE, RNC <-> MSC, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <->



Inter System Handover (0), Location Services - RTT (1), IMSI Based Handover (2), WCDMA

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UERAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UERNC <-> EM, RNC <-> RAC, RAC <-> RACApp, RNC -> UERAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UERAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UERAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UERAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> UERAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UERAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UE

1...4, step 1 1


primary (1)

automatic (0)

2000 ms (10)

2000 ms (4)

30 min (3)

30 s (4)

160 ms (2)

1...8 s, step 1 s 8 s

4s (2)

30 s (3)

180 s (4)

0...10 ms, step 1 ms 10 ms

0...10 ms, step 1 ms 10 ms

0...10 ms, step 1 ms 10 ms

0...10 ms, step 1 ms 10 ms

0...10 ms, step 1 ms 10 ms

0...10 ms, step 1 ms 10 ms


0...199 ms, step 1 ms 25 ms

0...199 ms, step 1 ms 25 ms

0...199 ms, step 1 ms 25 ms

0...199 ms, step 1 ms 25 ms

0...199 ms, step 1 ms 25 ms

0...199 ms, step 1 ms 25 ms

0...199 ms, step 1 ms 15 ms

0...127, step 1 30

high (0), normal (1) normal (1)

0...127, step 1 70

5...60 s, step 5 s 10 s

RAC <-> RNC, RACApp <-> RAC, RNC <-> EM, RNC -> UERAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Using default value for SecOMSIPAddress means that secondary OMS is not configured in


primary (1), secondary (2), backup (3)

RAC <-> RNC, RAC <-> RACApp, EM <-> RNC

automatic (0), primary forced (1), secondary forced (2)

OMS switchover is possible only with default value.RAC -> RNC, EM ->

RNC, RAC <-> RACAppdo not make switchover (0), switch to primary OMS (1), switch to secondary OMS (2)

do not make switchover (0)


1000 ms (5), 1200 ms (6), 1400 ms (7), 1600 ms (8), 1800 ms (9), 2000 ms (10), 3000 ms


100 ms (0), 200 ms (1), 400 ms (2), 1000 ms (3), 2000 ms (4)RNC <-> UE, RAC <->


infinity, no update (0), 5 min (1), 10 min (2), 30 min (3), 60 min (4), 120 min (5), 360 min (6), 720


5 s (0), 10 s (1), 15 s (2), 20 s (3), 30 s (4), 40 s (5), 50 s (6)RNC <-> UE, EM <->

RNC, RAC <-> RNC, RACApp <-> RAC

40 ms (0), 80 ms (1), 160 ms (2), 320 ms (3)

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0s (0), 2s (1), 4s (2), 6s (3), 8s (4), 12s (5), 16s (6), 20s (7)RNC <-> UE, RAC <->


0 s (0), 10 s (1), 20 s (2), 30 s (3), 40 s (4), 50 s (5), 999 s, infinity (6)RNC <-> UE, RAC <->


0 s (0), 10 s (1), 30 s (2), 60 s (3), 180 s (4), 600 s (5), 1200 s (6), 1800 s (7)

RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

The parameter default value 30 represents 164 m target horizontal accuracy for position


The parameter default value 70 represents 208 m target vertical accuracy for position


99% (23)

1...120 s, step 1 s 2 s

0...20 s, step 0.5 s 5 s

Disabled (0)

Disabled (0)

No (0), Yes (1) No (0)

Allowed (1)

Used (0), Not used (1) Used (0)

false (0), true (1) true (1)

No (0), Yes (1) Yes (1)

disable (0), enable (1) disable (0) Disabled by default.

Enabled (1)

Not Supported (0)

Off (0), On (1) Off (0)

Disabled (0)

Disabled (0)

Disabled (0)

Disabled (0) Disabled by default

Enabled (1)

Off (0), On (1) Off (0)

1/2 HLS allowed (0) 1/2 HLS allowed

Disabled (0) Disabled

Not in use (0), In use (1) Not in use (0)

Disabled (0)

Disabled (0)

Disabled (0)

Disabled (0)

Disabled (0)

Not Supported (0)

Disabled (0)

120s (4)


75% (7), 85% (10), 90% (13), 95% (16), 97,5% (20), 99% (23), 99,9% (30), almost 100% (50)

Gives 99% confidence interval.



AMR service is not used simultaneously with HSUPA (E-DCH) in the uplink.



AMR service is not used simultaneously with HSDPA (HS-DSCH) in the downlink.


Not allowed (0), Allowed (1)

CCCH used for Cell/URA Update ConfirmRAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RACApp, RAC <-> RNC, EM <-> RNC

SGSN is allowed to keep the inactive (NAS) signaling connection.RAC <-> RNC, EM <->

RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


DCH bit rate balancing is in use



DCH Scheduling Over Iur is not supported by SRNC.RAC <-> RNC, EM <->

RNC, RACApp <-> RACFeature is not activated (0), Feature is activated with SF step 1 (1), Feature is activated with

Feature is activated with SF step 1 (1)

Feature is activated with SF step 1.


"Off", use of the features the Flexible Upgrade of NRT Data Rate and the Throughput Based



UE in idle mode shall not detect the presence of a E-UTRA cell.RAC <-> RACApp, RAC

<-> RNC, EM <-> RNCDisabled (0), Enabled (1)

If the parameter is disabled, the location of the emergency call is done in UTRAN.



By default, emergency calls are not redirected to the GSM network.RAC <-> RNC, EM <->




Default value is 1= Enabled


Feature is switched "Off".


1/2 HLS allowed (0), 3/4 HLS is used (1)



EM <-> RNC, RAC <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


HSDPA Dynamic Resource Allocation is disabledRAC <-> RNC, EM <->


Serving HS-DSCH cell change and SHO of the associated DPCH are disabled.


Disabled (0), Enabled without E-DCH trigger (1), Enabled (2)

HSPA Inter-RNC Cell Change is disabled.



Extension Of HSPA Over Iur feature disabled in RNC.RAC <-> RNC, EM <->


ISHO Cancellation is disabled.



ISHO in Iur Mobility is not supported by SRNC




10s (0), 20s (1), 30s (2), 60s (3), 120s (4), 180s (5), 300s (6), 600s (7)

Disabled (0)

0

NO (0), YES (1) NO (0)

Disabled (0) Feature is disabled

-

1...1, step 1 -

Disabled (0)

Allowed (1) Allowed

60 s (4)

Disabled (0)

Disabled (0)

1...200, step 1 100

1...200, step 1 100

1...200, step 1 100

300 ms

RTT (0), Battery (1) Battery (1)

64 (7)

10 (4)

64 (7)

16 (3)

5 (0), 10 (1), 20 (2) 10 (1)

Infinity (0) Infinity

1 (0), 2 (1), 5 (2) 1 (0)

1 (0), 2 (1), 5 (2) 1 (0)

2 (2)

1 (0), 5 (1), 10 (2), 20 (3) 10 (2)

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UE

MIB PLMN id not included (0), MIB PLMN id included (1)

MIB PLMN id not included (0)




Priority based scheduling is not active (1), Higher priority (2), Higher or equal priority

Priority based scheduling is not active (1)

When the feature is active, the recommended value is 2.


Bit 0: Interactive TC THP 1, Bit 1: Interactive TC THP 2, Bit 2: Interactive TC THP 3,

0b00000000 , feature is not active for any NRT trafficsRNC <-> RAC, RNC <->

EM, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

Post-verification period not used (0), Post-verification period used (1)

Post-verification period not used (0)

Post-verification period not used


Power Balancing is not in use (0), Power Balancing is in use (1)

Power Balancing is not in use (0)

Power Balancing is not in use.


Disabled (0), Enabled in Cell_FACH (1), Enabled in Cell_DCH (2), Enabled in Cell_FACH


Not Defined (0), Network originated configuration action (1), NetAct RNW plan originated


RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC


As a default SRBs of R99 UEs are mapped on DCH in the RRC connection setup.




0 s (0), 10 s (1), 20 s (2), 30 s (3), 60 s (4), 120 s (5), 300 s (6), 600 s (7)RAC <-> RNC, EM <->





ARP has no effect on weights.






10...1000 ms, step 10 ms


0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10), Infinity (11)


0 (0), 2 (1), 4 (2), 8 (3), 10 (4), 20 (5), 40 (6), 80 (7), 160 (8)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


1 (0), 4 (1), 8 (2), 16 (3), 32 (4), 64 (5), 128 (6), 256 (7)RAC <-> RNC, EM <->


Infinity (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


0.5 (0), 1 (1), 2 (2), 3 (3), 4 (4)


20 (2)

2 (0), 4 (1), 15 (2) 4 (1)


64 (7)

8 (3)

64 (7)

64 (5)

8 (3)


1 (0), 2 (1), 5 (2) 1 (0)

1 (0), 2 (1), 5 (2) 1 (0)

2 (2)

8 (3)

16 (4)

2 (0), 4 (1), 15 (2) 4 (1)


64 (7)

10 (4)

64 (7)

16 (3)

5 (0), 10 (1), 20 (2) 10 (1)


1 (0), 2 (1), 5 (2) 1 (0)

1 (0), 2 (1), 5 (2) 1 (0)

2 (2)

1 (0), 5 (1), 10 (2), 20 (3) 10 (2)

20 (2)

2 (0), 4 (1), 15 (2) 4 (1)



5 (0), 10 (1), 20 (2), 40 (3), 80 (4), 160 (5)


0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10), Infinity (11)


0 (0), 2 (1), 4 (2), 8 (3), 10 (4), 20 (5), 40 (6), 80 (7), 160 (8)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


1 (0), 4 (1), 8 (2), 16 (3), 32 (4), 64 (5), 128 (6), 256 (7)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC1 (0), 4 (1), 5 (2), 8 (3), 10 (4), 16 (5), 20 (6)


Infinity (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


0.5 (0), 1 (1), 2 (2), 3 (3), 4 (4)


1 (0), 4 (1), 5 (2), 8 (3), 10 (4), 16 (5), 20 (6)


4 (0), 5 (1), 8 (2), 10 (3), 16 (4), 20 (5), 32 (6), 40 (7), 64 (8), 80 (9), 128 (10), 160 (11)


0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10), Infinity (11)


0 (0), 2 (1), 4 (2), 8 (3), 10 (4), 20 (5), 40 (6), 80 (7), 160 (8)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


1 (0), 4 (1), 8 (2), 16 (3), 32 (4), 64 (5), 128 (6), 256 (7)RAC <-> RNC, EM <->


Infinity (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


0.5 (0), 1 (1), 2 (2), 3 (3), 4 (4)


5 (0), 10 (1), 20 (2), 40 (3), 80 (4), 160 (5)


64 (7)

8 (3)

64 (7)

64 (5)

8 (3)


1 (0), 2 (1), 5 (2) 1 (0)

1 (0), 2 (1), 5 (2) 1 (0)

2 (2)

8 (3)

16 (4)

2 (0), 4 (1), 15 (2) 4 (1)


32 (6)

10 (4)

32 (6)

8 (2)

5 (0), 10 (1), 20 (2) 10 (1)

8 (4) 8

1 (0), 2 (1), 5 (2) 1 (0)

1 (0), 2 (1), 5 (2) 1 (0)

1 (1)

1 (0), 5 (1), 10 (2), 20 (3) 10 (2)

20 (2)

2 (0), 4 (1), 15 (2) 4 (1)


32 (6)

8 (3)

32 (6)

32 (4)


0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10), Infinity (11)


0 (0), 2 (1), 4 (2), 8 (3), 10 (4), 20 (5), 40 (6), 80 (7), 160 (8)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


1 (0), 4 (1), 8 (2), 16 (3), 32 (4), 64 (5), 128 (6), 256 (7)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC1 (0), 4 (1), 5 (2), 8 (3), 10 (4), 16 (5), 20 (6)


Infinity (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


0.5 (0), 1 (1), 2 (2), 3 (3), 4 (4)


1 (0), 4 (1), 5 (2), 8 (3), 10 (4), 16 (5), 20 (6)


4 (0), 5 (1), 8 (2), 10 (3), 16 (4), 20 (5), 32 (6), 40 (7), 64 (8), 80 (9), 128 (10), 160 (11)


0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10), Infinity (11)


0 (0), 2 (1), 4 (2), 8 (3), 10 (4), 20 (5), 40 (6), 80 (7), 160 (8)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


1 (0), 4 (1), 8 (2), 16 (3), 32 (4), 64 (5), 128 (6), 256 (7)RAC <-> RNC, EM <->


Infinity (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


0.5 (0), 1 (1), 2 (2), 3 (3), 4 (4)


5 (0), 10 (1), 20 (2), 40 (3), 80 (4), 160 (5)


0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10), Infinity (11)


0 (0), 2 (1), 4 (2), 8 (3), 10 (4), 20 (5), 40 (6), 80 (7), 160 (8)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


1 (0), 4 (1), 8 (2), 16 (3), 32 (4), 64 (5), 128 (6), 256 (7)

8 (3)


1 (0), 2 (1), 5 (2) 1 (0)

1 (0), 2 (1), 5 (2) 1 (0)

1 (1)

8 (3)

16 (4)

2 (0), 4 (1), 15 (2) 4 (1)

-24...0 dB, step 1 dB -6 dB

-24...0 dB, step 1 dB -6 dB

50...160 dB, step 1 dB 136 dB

-103 dBm

DC-HSDPA preferred (0) DC-HSDPA preferred

40 ms (2)

0.5...20 s, step 0.5 s 2 s

0.5...10 s, step 0.5 s 3 s

256 bps

0...300 s, step 0.2 s 5 s

0...300 s, step 0.2 s 5 s

0...3, step 1 3

0...5, step 1 3

0...5, step 1 4

0...3, step 1 3

63

32 (6)

16 (5)

0...10 s, step 1 s 3 s

127 01111111b

4065

0.1...5, step 0.1 1.8

0.1...5, step 0.1 1.5

0.1...5, step 0.1 1.4


1 (0), 4 (1), 5 (2), 8 (3), 10 (4), 16 (5), 20 (6)


Infinity (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)


0.5 (0), 1 (1), 2 (2), 3 (3), 4 (4)


1 (0), 4 (1), 5 (2), 8 (3), 10 (4), 16 (5), 20 (6)


4 (0), 5 (1), 8 (2), 10 (3), 16 (4), 20 (5), 32 (6), 40 (7), 64 (8), 80 (9), 128 (10), 160 (11)


-115...-25 dBm, step 1 dBm


DC-HSDPA preferred (0), MIMO preferred (1)



Value of the Discard Timer is 40 ms.


0...64000 bps, step 256 bps

RAC <-> RNC, Planner <-> RNC, RACApp <-> RAC, RNC <-> EMRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> WBTS, RNC -> UERAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Bit 0: Background, Bit 1: Interactive THP=3, Bit 2: Interactive THP=2, Bit 3: Interactive THP=1, Bit 4:

All TCs and THPs are allowed.


0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8)RAC <-> RNC, EM <->




Bit 0: Conversational Call, Bit 1: Streaming Call, Bit 2: Interactive Call, Bit 3: Background

0000111111100001b. Allocation of the Rel99 DCH is used for SRBs when the establishment


0.1...5, step 0.1 1.3

2000 ms (2)

-20...0 dB, step 0.5 dB -5 dB

0...60 s, step 1 s 10 s

0...4 dB, step 0.5 dB 0 dB

64 kbps (3)

0...16, step 1 4

64 kbps (3)

Limitation is active (1)

HSDPA Priority 1 (1)

SHO allowed (1)

0...6 dB, step 0.5 dB 1 dB

64 kbps (3) 64 kbps

64 kbps (3)

1...30 s, step 1 s 5 s

0...240 s, step 1 s 30 s

63

0 kbps NBR is not set.














RAC <-> RNC, EM <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RAC

500 ms (0), 1000 ms (1), 2000 ms (2), 3000 ms (3), 4000 ms (4), 6000 ms (5)

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RAC

The new cell must be the best cell.


16 kbps (1), 64 kbps (3), 128 kbps (4)


16 kbps (1), 64 kbps (3), 128 kbps (4)


No limitation (0), Limitation is active (1)


HSDPA Priority 1 (1), HSDPA Priority 2 (2)


SHO not allowed (0), SHO allowed (1)


16 kbps (1), 64 kbps (3), 128 kbps (4), 384 kbps (6)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC16 kbps (1), 64 kbps (3), 128 kbps (4), 384 kbps (6)EM <-> RNC, RAC <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


All supported TCs and THPs are allowed.









































1...60 s, step 1 s 10 s

50 ms (3)

0...30 s, step 1 s 5 s

1...5, step 1 2 -

0...1, step 0.01 0.9

0 s (0) 0

3 min (48) 3 min

0 s (0) 0 s

0 s (0) 0 s

0...10 s, step 0.5 s 3 s

0 bps

0...300 s, step 0.2 s 5 s

0...300 s, step 0.2 s 5 s

256 bps

0...300 s, step 0.2 s 2 s

0...300 s, step 0.2 s 0 s

128...83968, step 128 0

20...200 ms, step 10 ms 50 ms

20...200 ms, step 10 ms 80 ms

20...200 ms, step 10 ms 60 ms

























RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UE

2 ms (0), 10 ms (1), 20 ms (2), 50 ms (3), 100 ms (4), 200 ms (5), 500 ms (6), 1000 ms (7)


0 s (0), 2 s (1), 4 s (2), 6 s (3), 8 s (4), 10 s (5), 12 s (6), 14 s (7), 16 s (8), 18 s (9), 20 s (10), 22 s


0 s (0), 2 s (1), 4 s (2), 6 s (3), 8 s (4), 10 s (5), 12 s (6), 14 s (7), 16 s (8), 18 s (9), 20 s (10), 22 s


0 s (0), 2 s (1), 4 s (2), 6 s (3), 8 s (4), 10 s (5), 12 s (6), 14 s (7), 16 s (8), 18 s (9), 20 s (10), 22 s


0 s (0), 2 s (1), 4 s (2), 6 s (3), 8 s (4), 10 s (5), 12 s (6), 14 s (7), 16 s (8), 18 s (9), 20 s (10), 22 s


0...64000 bps, step 256 bps


0...64000 bps, step 256 bps


This parameter does not restrict maximum bit rate of NRT MAC-d flow.RAC <-> RNC, EM <->

RNC, RACApp <-> RAC1 HSUPA retransmission,MAC DTX not activeRAC <-> RNC, EM <->

RNC, RACApp <-> RAC2 HSUPA retransmission, 1 HARQ process, MAC DTX not active


1 HSDPA retransmission, 40 ms Discard timer.

0...3, step 1 1

0...3, step 1 2

40...320 ms, step 10 ms 320 ms

16...120 ms, step 2 ms 120 ms

16...120 ms, step 2 ms 120 ms

40...320 ms, step 10 ms 100 ms

SF32 (0), SF16 (1) SF32 (0) SF32.

SF8 (0), SF4 (1) SF8 (0) SF8.

8 kbps

200 ms (6)



-

1...1, step 1 -

20 ms (1)

20 ms (1)

2...18, step 1 4

2...18, step 1 4

1024 kbps -

2048 kbps

512 kbps -

0...10 s, step 1 s 3 s

1...100, step 1 15

1...100, step 1 90

1...100, step 1 65

1...100, step 1 40

1...100, step 1 25

1...100, step 1 100

1...100, step 1 75


1 E-HARQ retransmission in maximum.RAC <-> RNC, EM <->

RNC, RACApp <-> RAC2 E-HARQ retransmissions in maximum.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RACApp <-> RAC

Design limit of jitter allowed in RNC for streaming is 100 ms.RAC <-> RNC, EM <->

RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UE

everyMACePDU (0), 4 ms (1), 10 ms (2), 20 ms (3), 50 ms (4), 100 ms (5), 200 ms (6), 500 ms

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UERNC -> RAC, RNC -> EM



RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RAC <-> RACApp

10 ms (0), 20 ms (1), 30 ms (2), 40 ms (3), 50 ms (4), 60 ms (5), 70 ms (6), 80 ms (7), 90 ms (8),

The value of the T1 is 20 ms representing one HSDPA retransmission.EM <-> RNC, RAC <->

RNC, RACApp <-> RAC10 ms (0), 20 ms (1), 30 ms (2), 40 ms (3), 50 ms (4), 60 ms (5), 70 ms (6), 80 ms (7), 90 ms (8),

The value of the T1 is 20 ms representing one HSDPA retransmission.RNC -> UE, RNC ->

BTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> UE, RNC -> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC






RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

1...100, step 1 50





1...60 min, step 1 min 16 min Value set by the system

204

0...10, step 1 0

Disabled (0)

No (0), Yes (1) No (0)

-20...10 dB, step 1 dB -4 dB

Disabled (0)

1...59, step 1 1

1...60 s, step 1 s 10 s

2...60, step 1 3




0...8, step 1 4

Yes (1)

No (0)

No (0), Yes (1) No (0)

No (0), Yes (1) No (0)

1

1...10, step 1 3

500 ms (1)

0...10 s, step 1 s 3 s

0...48, step 1 3

1...10, step 1 3

18 % (5)

0...10 s, step 0.5 s 0.5 s

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Bit 0: Conversational Call, Bit 1: Streaming Call, Bit 2: Interactive Call, Bit 3: Background

By default, the Directed RRC connection setup for HSDPA layer is done only for Interactive and


All PLMNs are authorised




By default, the available HSDPA power is used in the decision making.RNC <-> RAC, RNC <->

EM, RAC <-> RACApp, RAC <-> OptimizerRAC <-> RNC, EM <-> RNC, RACApp <-> RAC



Fast Dormancy has higher priority (0), CPC has higher priority (1)

Fast Dormancy has higher priority (0)

Default value is 0 (Fast Dormancy has higher priority)RAC <-> RNC, EM <->

RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Default value 4 means that transmission gap starts from 4th slot. In this case a 7-slot gap is


No (0), Yes (1), Priority (2)

Yes; handover to GSM is allowed for CS voice servicesRAC <-> RNC, EM <->

RNC, RACApp <-> RACNo (0), Yes (1), Priority (2)



No; cell change to GSM/GPRS is not allowed for NRT PS data services


No; cell change to GSM/GPRS is not allowed for RT PS data services


Bit 0: PS I/B RAB (Always 1), Bit 1: PS Streaming, Bit 2: 2/3 NRT PS RAB, Bit 3: PS

Only PS I/B RAB combination is supported by HSCAHO.RAC <-> RNC, EM <->

RNC, RACApp <-> RACThe size of the averaging window in terms of CPICH Ec/No measurement reports.


250 ms (0), 500 ms (1), 1000 ms (2), 2000 ms (3), 3000 ms (4), 4000 ms (5), 6000 ms (6),

Reporting interval 500 ms


The size of the averaging window in terms of SIRerror measurement reports.


100 % (0), 71 % (1), 50 % (2), 35 % (3), 25 % (4), 18 % (5), 13 % (6), 9 % (7), 6 % (8), 4 % (9),

The approximated weight of the latest measurement result is 18%.


-10...0 dB, step 0.5 dB -3 dB

-10...0 dB, step 0.5 dB -2 dB

0...6 dB, step 0.5 dB 2 dB

0...6 dB, step 0.5 dB 3 dB

0...6 dB, step 0.5 dB 3 dB

1

1...60 s, step 1 s 20 s

874 chips

0...60 s, step 1 s 10 s

3 times Value set by the system

1...5, step 1 1

off (0), on (1) off (0)

15 (15)

0...60 s, step 0.01 s 3 s

0...100, step 1 70

0...51, step 1 0 No band is preferred.

0...255, step 1 43

0...255, step 1 0

0...255, step 1 0

0...255, step 1 41

0...255, step 1 0

0...255, step 1 0

-

1...1, step 1 -

Not blocked (0)

Not defined (0)

Not defined (0)

Not defined (0)

Not defined (0)

Not defined (0)

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Bit 0: PS NRT RAB, Bit 1: PS Streaming RAB, Bit 2: CS AMR RAB, Bit 3: CS Conversational

Only Single PS NRT RAB is supported by I-BTS.RAC <-> RNC, EM <->

RNC, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

768...896 chips, step 1 chips

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

0...100 times, step 1 times


The max number of ISHO cancellations that are allowed per active set for the UE is 1.

RACApp <-> RAC, RAC <-> RNC, EM <-> RNCRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

0 (0), 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 7 (7), 8 (8), 9 (9), 11 (11), 13 (13), 15 (15), 17 (17), 19

SLHO feature requires long averaging.

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

Relocation desirable for radio reasons.

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

Resource Optimisation Relocation

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC -> RAC, RNC -> EM



RNC <-> RAC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RAC <-> RACApp

Not blocked (0), Blocked (1)


Not defined (0), GSM (1), WCDMA (2), WCDMA micro layer (3), WCDMA macro layer (4)



EM <-> RNC, RAC <-> RNC, RAC <-> RACApp






Not defined (0)

Not defined (0)

Not defined (0)

None (0)

None (0)

None (0)

None (0)

None (0)

None (0)

None (0)

None (0)

3

3...144, step 1 4

3...18, step 1 4

2...144, step 1 4

2...18, step 1 4

2...144, step 1 4

2...18, step 1 4

2...144, step 1 4

2...18, step 1 4

2...144, step 1 4

2...18, step 1 4

1...16 s, step 1 s 8 s

1...16 s, step 1 s 6 s

16000 ms (4)

24 dBm

0.5...5 s, step 0.5 s 0.5 s

1174 chips

0...2550 ms, step 10 ms 300 ms

0...60 min, step 1 min 0 min Not used

1...30 s, step 1 s 4 s








None (0), Load HO (1), Service HO (2), Service and load HO (3)RAC <-> RNC, EM <->

RNC, RAC <-> RACAppNone (0), Load HO (1), Service HO (2), Service and load HO (3)RAC <-> RNC, EM <->



RNC, RAC <-> RACAppNone (0), Load HO (1), Service HO (2), Service and load HO (3)EM <-> RNC, RAC <->




RNC, RACApp <-> RACBit 0: Background Call, Bit 1: Interactive Call, Bit 2: PS Streaming Call, Bit 3: CS voice Call,

Layer change is enabled for Background and Interactive traffic classes.


Any type of service is requested (0), NRT PS RAB is requested (1)

Any type of service is requested (0)

By default, the UE is transferred to the HSDPA layer with any type of service

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

4000 ms (0), 6000 ms (1), 8000 ms (2), 12000 ms (3), 16000 ms (4), 20000 ms (5), 24000 ms



Default value 24 dBm corresponds to the UE power class 3.RAC <-> RNC, EM <->

RNC, RACApp <-> RACFast reaction is needed in order to maintain the connection. This is due to already poor


1152...1280 chips, step 1 chips


1...30 s, step 1 s 4 s

6 % (6) 6 %

1000 ms

6 % (6) 6 %

200 ms

2000 ms

2000 ms

2000 ms

2000 ms

2000 ms

16 kbps (16)

32 kbps (32)

8 kbps (8), 16 kbps (16) 8 kbps (8)

64 kbps (64)

16 kbps (16)

1400 ms

1400 ms

1400 ms

1400 ms

1400 ms

0...30 s, step 1 s 6 s

1000 ms

256 bps

256 bps

200 ms

2000 ms

2000 ms

2000 ms


0 % (0), 2 % (2), 4 % (4), 6 % (6), 8 % (8), 10 % (10), 12 % (12), 14 % (14), 16 % (16), 18 %


500...10000 ms, step 500 ms

Time to Trigger for the high throughput measurement is respectively 0.2 s, which


0 % (0), 2 % (2), 4 % (4), 6 % (6), 8 % (8), 10 % (10), 12 % (12), 14 % (14), 16 % (16), 18 %


0...10000 ms, step 200 ms

Sliding measurement window size for the high throughput measurement is


500...10000 ms, step 500 ms


500...10000 ms, step 500 ms


500...10000 ms, step 500 ms


500...10000 ms, step 500 ms


500...10000 ms, step 500 ms



RNC, RACApp <-> RAC8 kbps (8), 16 kbps (16), 32 kbps (32), 64 kbps (64), 128 kbps (128)RAC <-> RNC, EM <->


8 kbps (8), 16 kbps (16), 32 kbps (32), 64 kbps (64), 128 kbps (128), 256 kbps (256)


8 kbps (8), 16 kbps (16), 32 kbps (32)


0...10000 ms, step 200 ms


0...10000 ms, step 200 ms


0...10000 ms, step 200 ms


0...10000 ms, step 200 ms


0...10000 ms, step 200 ms


500...10000 ms, step 500 ms


0...8000 bps, step 32 bps


0...8000 bps, step 32 bps


0...10000 ms, step 200 ms


500...10000 ms, step 500 ms


500...10000 ms, step 500 ms


500...10000 ms, step 500 ms

2000 ms

2000 ms

64 kbps (64)

128 kbps (128)

8 kbps (8), 16 kbps (16) 16 kbps (16)

256 kbps (256)

32 kbps (32)

4000 ms

4000 ms

4000 ms

4000 ms

4000 ms

0...120 s, step 1 s 2 s

0...6 dB, step 0.1 dB 2 dB

0...1, step 0.1 0.2

160 ms (8)

1...4, step 1 2

0...4 s, step 1 s 3 s

Not in use (0), In use (1) In use (1)

0...20 s, step 1 s 2 s

0...20 s, step 1 s 5 s

0...20 s, step 1 s 2 s

0...20 s, step 1 s 5 s

0...20 s, step 1 s 2 s

0...20 s, step 1 s 2 s

0...20 s, step 1 s 3 s

0...20 s, step 1 s 5 s

0...20 s, step 1 s 2 s


500...10000 ms, step 500 ms


500...10000 ms, step 500 ms



RNC, RACApp <-> RAC8 kbps (8), 16 kbps (16), 32 kbps (32), 64 kbps (64), 128 kbps (128)RAC <-> RNC, EM <->


8 kbps (8), 16 kbps (16), 32 kbps (32), 64 kbps (64), 128 kbps (128), 256 kbps (256)


8 kbps (8), 16 kbps (16), 32 kbps (32)


0...20000 ms, step 200 ms


0...20000 ms, step 200 ms


0...20000 ms, step 200 ms


0...20000 ms, step 200 ms


0...20000 ms, step 200 ms

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RAC <-> RACAppEM <-> RNC, RAC <-> RNC, RACApp <-> RAC


RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0...20 s, step 1 s 5 s

0...20 s, step 1 s 2 s

0...20 s, step 1 s 5 s

0...20 s, step 1 s 2 s

0...20 s, step 1 s 2 s

0...20 s, step 1 s 3 s

0...20 s, step 1 s 5 s

Equal Priority (0)

0...11, step 1 0

0...11, step 1 0

0...11, step 1 0

0...14, step 1 14

0...11, step 1 0

0...12, step 1 12

0...11, step 1 11

0...11, step 1 11

0...11, step 1 11

0...11, step 1 8

0...11, step 1 8

0...11, step 1 8

0...11, step 1 5

0...11, step 1 5

0...11, step 1 5

0...15, step 1 15

0...13, step 1 13

0...13, step 1 13

0...13, step 1 13

-

1...1, step 1 -

0...11, step 1 11

0...11, step 1 11

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Equal Priority (0), Higher Priority over Iur (1), Lower Priority over Iur (2)

Iur users and Drift RNC users have equal priority

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EM




RT-over-NRT always used



0...11, step 1 11

No (0), Yes (1) Yes (1)

2000 ms (200)

2000 ms (200)

1024 bytes. 1 KB (7)

2048 bytes. 2KB (8)

512 bytes. (6)

3072 bytes. 3KB (9)

1024 bytes. 1KB (7)

1024 bytes. 1KB (7)

256 bytes. (5)

1024 bytes. 1 KB (7)

2048 bytes. 2KB (8)

512 bytes (6)

2048 bytes. 2KB (8)

1024 bytes. 1KB (7)

1024 bytes. 1KB (7)

256 bytes. (5)

128 bytes (128)

0 ms (0)

0 ms (0)

0...10 s, step 0.5 s 2 s

1...3, step 0.1 1.3

1...3, step 0.1 1.8

1...60, step 1 15

1...32, step 1 12

1...32, step 1 12

100...600 %, step 1 % 200 %

40 ms




250 ms (25), 500 ms (50), 1000 ms (100), 2000 ms (200), 4000 ms (400), 8000 ms (800),


250 ms (25), 500 ms (50), 1000 ms (100), 2000 ms (200), 4000 ms (400), 8000 ms (800),

Same in all cells within BTS.

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> UE

8 bytes (0), 16 bytes (1), 32 bytes (2), 64 bytes (3), 128 bytes (4), 256 bytes (5), 512 bytes (6),


8 bytes. (0), 16 bytes. (1), 32 bytes. (2), 64 bytes. (3), 128 bytes. (4), 256 bytes. (5), 512


























8 bytes (8), 16 bytes (16), 32 bytes (32), 64 bytes (64), 128 bytes (128), 256 bytes (256),


0 ms (0), 10 ms (10), 20 ms (20), 40 ms (40), 60 ms (60), 80 ms (80), 100 ms (100), 120 ms (120),



RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACEM <-> RNC, RACApp <-> RAC, RAC <-> RNCEM <-> RNC, RACApp <-> RAC, RAC <-> RNCEM <-> RNC, RACApp <-> RAC, RAC <-> RNCEM <-> RNC, RACApp <-> RAC, RAC <-> RNCEM <-> RNC, RACApp <-> RAC, RAC <-> RNCEM <-> RNC, RACApp <-> RAC, RAC <-> RNC

10...1000 ms, step 10 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

5940

0...1500 ms, step 10 ms 500 ms

0...1500 ms, step 10 ms 500 ms

125 kByte

1150 kByte

1250 kByte

175 kByte

1000 kByte

250 kByte

300 kByte

70 kByte

475 kByte

600 kByte

350 kByte

1...3, step 0.1 1

1...600 %, step 1 % 80 %

1...60, step 1 15

1...32, step 1 12

1...32, step 1 12

1...600 %, step 1 % 140 %

40 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

56849

1...60, step 1 40

EM <-> RNC, RACApp <-> RAC, RAC <-> RNC

Poll bit is set when 23% of the transmisson window is used.EM <-> RNC, RACApp

<-> RAC, RAC <-> RNCEM <-> RNC, RACApp <-> RAC, RAC <-> RNCEM <-> RNC, RACApp <-> RAC, RAC <-> RNC

Bit 0: Timer poll periodic (Always 0), Bit 1: Timer status periodic (Always 0), Bit 2: Timer poll

EM <-> RNC, RACApp <-> RAC, RAC <-> RNCEM <-> RNC, RACApp <-> RAC, RAC <-> RNCRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

100...200 kByte, step 5 kByte






















10...1000 ms, step 10 ms


Poll bit is set when 23% of the transmisson window is used.RAC <-> RNC, EM <->



Trigger configuration 1101 1110 0001 0001


1...600 %, step 1 % 100 %

40 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

1988

1...60, step 1 30

1...600 %, step 1 % 112 %

40 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

1988

1...3, step 0.1 1

0.1...10, step 0.1 2

1...600 %, step 1 % 80 %

1...60, step 1 15

1...32, step 1 12

1...32, step 1 12

1...600 %, step 1 % 140 %

40 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

32273

1...3, step 0.1 1

1...40, step 1 15

1...32, step 1 12

1...32, step 1 12


10...1000 ms, step 10 ms





Trigger configuration 111 1100 0100


10...1000 ms, step 10 ms






RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

10...1000 ms, step 10 ms







1...600 %, step 1 % 200 %

40 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

3857

1...3, step 0.1 1

0.1...10, step 0.1 2

1...40, step 1 15

1...32, step 1 12

1...32, step 1 12

1...600 %, step 1 % 200 %

40 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

3601

1...60, step 1 15

1...32, step 1 12

1...32, step 1 12

1...600 %, step 1 % 200 %

40 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

6100

1...60, step 1 30

1...600 %, step 1 % 200 %

40 ms


10...1000 ms, step 10 ms


Poll bit is set when 23% of the transmisson buffer is used.RAC <-> RNC, EM <->





10...1000 ms, step 10 ms







10...1000 ms, step 10 ms



RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EM




10...1000 ms, step 10 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

1988

1...3, step 0.1 1

1...600 %, step 1 % 66 %

1...60, step 1 15

1...32, step 1 12

1...32, step 1 12

1...600 %, step 1 % 200 %

40 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

122385

0.1...10, step 0.1 2

1...3, step 0.1 1

1...600 %, step 1 % 66 %

1...60, step 1 15

1...32, step 1 12

1...32, step 1 12

1...600 %, step 1 % 200 %

40 ms

1...100 %, step 1 % 23 %

1...64, step 1 1

50...99 %, step 1 % 70 %

65041

8 kbps

8...85000, step 8 16







10...1000 ms, step 10 ms





Trigger configuration 1 1101 1110 0001 0001

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

10...1000 ms, step 10 ms









32 kbps

8...85000, step 8 96

64 kbps

8...85000, step 8 96

384 kbps

8...85000, step 8 768

1376 kbps

8...85000, step 8 1600

1600 kbps

8...85000, step 8 3000

3840 kbps

8...85000, step 8 4096

85000 kbps

8...85000, step 8 31000

0...1500 ms, step 10 ms 100 ms

0...1500 ms, step 10 ms 120 ms

0...1500 ms, step 10 ms 160 ms

0...1500 ms, step 10 ms 140 ms

0...1500, step 10 100

0...1500 ms, step 10 ms 100 ms

0...1500 ms, step 10 ms 500 ms

0...1500 ms, step 10 ms 100 ms

0...1500 ms, step 10 ms 100 ms

0...1500 ms, step 10 ms 100 ms -

1...60, step 1 30

1...600 %, step 1 % 116 %

40 ms

1...100 %, step 1 % 23 %

1...64, step 1 1















RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

10...1000 ms, step 10 ms


50...99 %, step 1 % 70 %

1988

64 (2)

64 (2)

32 (1)

3584 kbps

5...15, step 1 10

-5...30 dB, step 0.1 dB 9 dB

-

1...1, step 1 -

10...100 ms, step 10 ms 100 ms

0...40 characters -

0.6...1, step 0.01 0.6

0.6...1, step 0.01 0.6

0.6...1, step 0.01 0.6

0.6...1, step 0.01 0.6

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 0.08

0...1, step 0.01 0.08

0...1, step 0.01 0.6

0...1, step 0.01 0.6

0...1, step 0.01 0.3





16 (0), 32 (1), 64 (2), 128 (3), 256 (4), 512 (5), 768 (6), 1024 (7), 1536 (8), 2047 (9)


16 (0), 32 (1), 64 (2), 128 (3), 256 (4), 512 (5), 768 (6), 1024 (7), 1536 (8), 2047 (9)


16 (0), 32 (1), 64 (2), 128 (3), 256 (4), 512 (5), 768 (6), 1024 (7), 1536 (8), 2047 (9)




10 HS-PDSCH codes are required to use PDU size 656 bits.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRNC -> RAC, RNC -> EM




Timer based explicit (0), Max DAT retransmissions (1), No discard (2)

Max DAT retransmissions (1)



RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0...1, step 0.01 0.3

0...1, step 0.01 0.1

0...1, step 0.01 0.1

0...1, step 0.01 0.1

0...1, step 0.01 0.1

0...1, step 0.01 0.1

0...1, step 0.01 0.1

0...1, step 0.01 0.1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 0.01

0...1, step 0.01 0.01

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 0.1

0...1, step 0.01 0.1

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> EM, RNC <-> RAC, RAC <-> RACAppRNC <-> EM, RNC <-> RAC, RAC <-> RACApp

CAC reservation scaling is not applied


CAC reservation scaling is not applied


CAC reservation average value is scaled to minimum. With this value the overall logical


CAC reservation average value is scaled to minimum. With this value the overall logical

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

Disabled (0)

0...5000 ms, step 1 ms 35 ms

0...5000 ms, step 1 ms 35 ms

0...5000 ms, step 1 ms 205 ms

0...5000 ms, step 1 ms 205 ms

1...1800 s, step 1 s 30 s

1...1023, step 1 3

1...1023, step 1 1

1...1023, step 1 2

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


RAC <-> RNC, EM <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

5 times

1...300 ms, step 1 ms 100 ms

-

1...1, step 1 -

0...63, step 1 34

1...60 s, step 1 s 10 s

Non delay sensitive (0)



0...50 ms, step 1 ms 10 ms

0...200 ms, step 1 ms 100 ms

1...3, step 1 3

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1


1...15 times, step 1 times

EM <-> RNC, RAC <-> RNC, RAC <-> RACAppRNC -> RAC, RNC -> EM



RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RAC

Non delay sensitive (0), Delay sensitive (1)





RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Normal UL CAC algorithm is on (0), Extended UL CAC is on (2)

Extended UL CAC is on (2)


In the default set the activity factor in DCCH SRB's varies from 7.5% to 60%.


By default the activity factor CAC scaling is not applied.RNC <-> EM, RNC <->

RAC, RAC <-> RACAppBy default the activity factor CAC scaling is not applied.RNC <-> EM, RNC <->
















RAC, RAC <-> RACAppBy default the activity factor CAC scaling is not applied.

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

0...1, step 0.01 1

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)


By default the activity factor CAC scaling is not applied.RNC <-> EM, RNC <->













RAC, RAC <-> RACAppBy default the activity factor CAC scaling is not applied.RNC <-> RAC, RNC <->

EM, RACApp <-> RACNOT PROTECTED (0), PROTECTED (1)

All traffic is protected in the default configuration when the HSPA Transport Fallback


NOT PROTECTED (0), PROTECTED (1)


















































PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

PROTECTED (1)

StringentQ1 (17)

Stringent bi-levelQ2 (37)










































All traffic is protected in default configuration when HSPA Transport Fallback feature is

















StringentQ1 (17), TolerantQ1 (18), Stringent bi-levelQ1 (21), StringentQ2 (33),

AAL2 Path type Stringent and the highest priority AAL2 queue is used by default



AAL2 Path type Stringent bi-level and the second highest priority AAL2 queue is














































TolerantQ4 (66)

TolerantQ4 (66)

TolerantQ4 (66)



StringentQ1 (17)

StringentQ1 (17)

TolerantQ4 (66)

TolerantQ4 (66)

TolerantQ4 (66)

TolerantQ4 (66)

TolerantQ4 (66)

TolerantQ4 (66)

TolerantQ4 (66)

TolerantQ4 (66)

TolerantQ4 (66)

StringentQ1 (17)

StringentQ1 (17)

0...63, step 1 46

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34



AAL2 Path type Tolerant and the lowest priority AAL2 queue is used by default for the HSPA
















































RNC <-> EM, RNC <-> RAC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

The default mapping for the CS Traffic is EF PHB (EF, 101110).RAC <-> RNC, EM <->

RNC, RACApp <-> RACThe default mapping for the PS RAB on DCH is AF4 PHB (AF4, 100010).


The default mapping for the PS RAB on DCH is AF4 PHB (AF4, 100010).





















0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 34

0...63, step 1 0

0...63, step 1 0

0...63, step 1 0

0...63, step 1 26

0...63, step 1 26

0...63, step 1 46

0...63, step 1 46

0...63, step 1 0

0...63, step 1 0

0...63, step 1 0

0...63, step 1 0

0...63, step 1 0

0...63, step 1 0

0...63, step 1 0

0...63, step 1 0

0...63, step 1 0

0...63, step 1 46

0...63, step 1 46

-

1...4, step 1 -

1...4095, step 1 -

1...4095, step 1 -

0.5...5 s, step 0.5 s 1.5 s

0.5...5 s, step 0.5 s 0.5 s

0.5...5 s, step 0.5 s 2.5 s

5 (5)










The default value for the HSPA transport bearer reflects the best effort treatment at transport.
































The default mapping for the common channels is EF PHB (EF, 101110).RAC <-> RNC, EM <->

RNC, RACApp <-> RACThe default mapping for the SRB is EF PHB (EF, 101110).RNC -> RAC, RNC ->






No default value possible.


No default value possible.


Selecting 1.5s default value for CS data is based on the assumption that RLs


Selection of default value 0.5s for PS data is based on the assumption that the


Because AMR and stand-alone SRBs are the most common ones, selecting a long


Chase Combining (0), Incremental Redundancy Combining (1)

Incremental Redundancy Combining (1)RAC <-> RNC, EM <->

RNC, RAC <-> RACApp0 (0), 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 7 (7), 8 (8), 9 (9), 11 (10), 13 (11), 15 (12), 17 (13), 19

-

1...1, step 1 -

0

0

0...120, step 1 4

1...5, step 1 -

32kbps (32)

32kbps (32)




1...100, step 1 0

384 kbps (6) 384 kbps

Disabled (0)

1...100, step 1 0

Disabled (0)

64kbps (64)

64kbps (64)

1...65535, step 1 -

384 kbps (384)

384 kbps (384)

960 kbps, SF4 (0)

8 kbps (8)

8 kbps (8)

1...100, step 1 0

1...100, step 1 0

1...100, step 1 -

1...100, step 1 0

1...100, step 1 0

1...100, step 1 -

3 dB


PS RAB Reconfiguration is not supported (0), PS RAB Reconfiguration is supported (1)

PS RAB Reconfiguration is not supported (0)

PS RAB Reconfiguration is not supported over Iur.RNC -> RAC, RNC ->



RAC <-> RNC, RACApp <-> RAC, RNC <-> EM, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RAC <-> RACApp

Bit 0: CS AMR codec set (12.2), Bit 1: CS AMR codec set (12.2, 7.95, 5.9, 4.75), Bit 2: CS

'OFF', Configured AMR Mode Set feature is not in use.RAC <-> RNC, EM <->

RNC, RACApp <-> RACBit 0: CS WAMR codec set (12.65, 8.85, 6.6),

Value 0 'OFF', Configured WAMR mode sets are not employed


32kbps (32), 64kbps (64), 128kbps (128), 256kbps (256), 384kbps (384), 512 kbps (512)


32kbps (32), 64kbps (64), 128kbps (128), 256kbps (256), 384kbps (384), 512 kbps (512)











8kbps (8), 16kbps (16), 32kbps (32), 64kbps (64), 128kbps (128), 256kbps (256), 384kbps


8kbps (8), 16kbps (16), 32kbps (32), 64kbps (64), 128kbps (128), 256kbps (256), 384kbps

RNC <-> UE, RNC <-> MSC, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <->



8 kbps (8), 16 kbps (16), 32 kbps (32), 64 kbps (64), 128 kbps (128), 256 kbps (256), 320




960 kbps, SF4 (0), 1920 kbps, 2*SF4 (1), 3840 kbps, 2*SF2 (2)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC8 kbps (8), 16 kbps (16), 32 kbps (32), 64 kbps (64), 128 kbps (128), 256 kbps (256), 384




Default value not possible.












-32...31.75 dB, step 0.25 dB

0...255, step 1 -






Not used (0), Used (1) Not used (0)

1...100, step 1 0

1...100, step 1 0

1...100, step 1 -

1...100, step 1 0

1...100, step 1 0

1...100, step 1 -

2 antennas (1)

-

1...1, step 1 -

1...10, step 1 -

0...999, step 1 -

0...999, step 1 -


-

-

0...15 characters -

1...588, step 1 -

RAC -> RNC Not defined (2)

0...20 characters -

DISABLED (0)

7...64 characters -

quality check done (0)

BTFD not supported (0)




Relocation Commit is not used.














1 antenna (0), 2 antennas (1), 4 antennas (2)

As a default two antennas are used in the receiving direction.RNC -> RAC, RNC ->

EMNot Defined (0), Network originated configuration action (1), NetAct RNW plan originated


RAC <-> RNC, RNC <-> EM, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology







GSM (0), WCDMA (1), GSM and WCDMA (2)







RNC -> RAC, RNC -> EM, RAC -> RACApp


Locked (0), Unlocked (1), Not defined (2)

EM <-> RNC, RAC <-> RNC, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RACApp <-> RAC

DISABLED (0), ENABLED (1)

RNC -> RAC, RNC -> EM, WBTS -> EM, WBTS -> RNC, RNC -> NetAct topology, RNC -> RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

HSDPA CM not supported (0), HSDPA CM supported (1)

HSDPA CM not supported (0)


quality check done (0), quality check not done (1)

quality check done in blind HO always


BTFD not supported (0), BTFD supported (1)

BTS does not support BTFD.

Disabled (0)

Disabled (0)

Disabled (0)

1...65535, step 1 -

2...24, step 1 8

Disabled (0) Disabled.

Undefined (255) Undefined

1...10, step 1 0

0...63, step 1 46

0...63, step 1 0 Best Effort

0...63, step 1 34

0...63, step 1 26

0.5...5 s, step 0.5 s 1.5 s

0.5...5 s, step 0.5 s 0.5 s

0.5...5 s, step 0.5 s 2.5 s

100 ms

100 ms

0...320 ms, step 0.01 ms 70 ms

0...320 ms, step 0.01 ms 70 ms

0...320 ms, step 0.01 ms 50 ms

0...320 ms, step 0.01 ms 50 ms

Disabled (0)

Disabled (0)

0...100 %, step 1 % 0 %

1...5, step 1 255 Not defined.

0...100 %, step 1 % 0 %

0...63, step 1 34

0...100, step 1 0

1...128, step 1 1

0...63, step 1 34



RNC <-> RAC, RNC <-> EM, RAC <-> RACApp






RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC -> EM, RNC -> RAC, RNC -> OMS topology, RNC -> OMS topology UI


RNC -> EM, RNC -> RAC, RNC -> OMS topology, RNC -> OMS topology UI

Insecure (0), Secure (1), Undefined (255)


The recommended value is 4 when the radio link/dedicated measurement reporting


Expedited forwarding Per-Hop-Behaviour (RFC2475)RACApp <-> RAC, RAC

<-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRAC <-> RNC, RNC <-> WBTS, EM <-> RNC, RAC <-> RACApp

Selecting 1.5s default value for CS data is based on the assumption that RLs

RAC <-> RNC, RNC <-> WBTS, EM <-> RNC, RAC <-> RACApp

Selection of default value 0.5s for PS data is based on the assumption that the


Because AMR and stand-alone SRBs are the most common ones, selecting a long


0.01...320 ms, step 0.01 ms


0.01...320 ms, step 0.01 ms

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> WBTS, RNC -> UE

Chase Combining (0), Incremental Redundancy Combining (1)

Incremental Redundancy Combining (1)RAC <-> RNC, EM <->





HSDPA Congestion Control is disabled.


HSDPA Operator weight for all Iur users is 0%

RAC <-> RNC, EM <-> RNC, RACApp -> RACRAC <-> RNC, EM <-> RNC, RACApp -> RACRAC <-> RNC, EM <-> RNC, RACApp -> RAC

HSDPA Operator weight value is 0%

RACApp <-> RAC, RAC <-> RNC, EM <-> RNCRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

HSDPA Capacity split stopped when the number of users goes below the threshold.


HSDPA User Threshold is set to 1 user per cell.


Disabled (0)

Disabled (0)

1...4095, step 1 0

1...4095, step 1 0

1...65535, step 1 0

170 cps

80 kbps

1...248, step 1 6

ISHO (0), IFHO (1) ISHO (0)

15

0

2000 ms

15...60 ms, step 1 ms 50 ms

384 kbps (3)

384 kbps (3)

1...1024, step 1 0

5 (5)

1026...65535, step 1 1026

-

0...30 characters -

-

0...384, step 1 48

Overbooking OFF (0)

1...20, step 1 4

1...10, step 1 0

OFF (0), ON (1) OFF (0)

22 hours


6 hours



Disabled (0), 3 users enabled (3), 12 users enabled (12), 24 users enabled (24), 60 users

HSUPA Users are not allowed in the BTS.



Inter Circle Roaming feature is disabled in the corresponding BTS.RAC <-> RNC, EM <->

RNC, RACApp <-> RAC, RNC -> OMS topologyRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topologyRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

10...2360 cps, step 10 cps



RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RACApp <-> RAC

Bit 0: NRT DCH, Bit 1: RT HSPA, Bit 2: NRT HSPA, Bit 3: SRB HSPA,

All traffic classes are protected in default configuration when the feature has been


Bit 0: IP Iub, Bit 1: NRT HSDPA, Bit 2: NRT HSUPA, Bit 3: Streaming HSDPA, Bit

With ATM Iub, all the bit values need to be set to zero. The default is ATM Iub.


100...2000 ms, step 100 ms

EM <-> RNC, RNC <-> RAC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

64 kbps (0), 128 kbps (1), 256 kbps (2), 384 kbps (3), 512 kbps (4)RAC <-> RNC, EM <->

RNC, RAC <-> RACApp64 kbps (0), 128 kbps (1), 256 kbps (2), 384 kbps (3)RAC <-> RNC, EM <->

RNC, RACApp <-> RACBy default the number of E-DCH allocations is not restricted by this parameter.


0 (0), 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 7 (7), 8 (8), 9 (9), 11 (10), 13 (11), 15 (12), 17 (13), 19

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACApp, RNC -> OMS topology, RNC -> OMS topology

UltraSite BTS, FlexiBTS, PicoBTS (0), NB/RSxxx (1)WBTS -> RNC, RNC ->

NetAct topology, RNC -> RAC, RNC -> OMS topology, RNC -> OMS WBTS -> RNC, WBTS -> EM, RNC -> EM, RNC -> RAC, RNC -> NetAct topology, RNC -> OMS

not used (0), other (1), UltraBTS (2), FlexiBTS (3), PicoBTS (4), NB/RSxxx (9)

RNC <-> EM, RAC <-> RNC, RAC <-> RACAppRNC <-> RAC, RAC <-> RACApp, EM <-> RNC

PS RAB Reconfiguration is not supported (0), PS RAB Reconfiguration is supported (1)

PS RAB Reconfiguration is not supported (0)

NodeB support for PS RAB reconfiguration is disabled.EM <-> RNC, RAC <->

RNC, RAC <-> RACAppOverbooking OFF (0), Overbooking ON (1)


RLC PDU size 656 is not used (0), RLC PDU size 656 should not be used (1), RLC PDU size

RLC PDU size 656 can be used (2)

RLC PDU size 656 can be used.


The recommended value is 4 when the radio link/dedicated measurement period is

RNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACApp

0...23 hours, step 1 hours




22 hours


6 hours


None (0)

0...1, step 0.0001 0.1

0...1, step 0.0001 0.1

0...0.5, step 0.05 0

10 frames

1...255, step 1 5

0...0.5, step 0.05 0

-3...0 dB, step 0.1 dB -3 dB Minimum requirement.

-60...-28 dB, step 1 dB -28 dB Minimum requirement

10 radio frames


0...100 %, step 1 % 0 %

0...20, step 1 1

OFF (0)

400 ms

0...100 %, step 1 % 50 %

0...100 %, step 1 % 95 %

0...100 %, step 1 % 100 %

0...100 %, step 1 % 95 %

0...100 %, step 1 % 95 %

0...100 %, step 1 % 95 %

0...100 %, step 1 % 95 %

0...100 %, step 1 % 95 %

0...100 %, step 1 % 1 %


DISABLED (0) The feature is disabled.






None (0), Saturday (1), Sunday (2), Saturday and Sunday (3)RAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Pure sliding window mean filter used



Default = nbr of frames during one RRI period when RRI period is 100 ms.

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Pure sliding window mean filter used

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, AC <-> PS, AC <-> PCRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, AC <-> PS, AC <-> PCRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

10...200 radio frames, step 1 radio frames

Default = nbr of frames during one RRI period when RRI period is 100 ms.

RAC <-> RNC, EM <-> RNC, RACApp -> RACRAC <-> RNC, EM <-> RNC, RACApp -> RACRAC <-> RNC, EM <-> RNC, RACApp -> RAC

R99 Operator Weight value is 0%


RACH load is reported in every Radio Resource Indication message.WBTS -> RNC, WBTS -

> EM, RNC -> EM, RNC -> NetAct topology, RNC -> OMS topology, RNC -

OFF (0), RFMaster (1), RFSlave (2)

By default RFSharingState is considered Off.RNC <-> WBTS, RAC <-

> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -

200...2000 ms, step 100 ms

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> EM, RAC <-> RNC, RAC <-> RACAppRNC <-> EM, RAC <-> RNC, RAC <-> RACApp

DISABLED (0), ENABLED (1)

100 ms

Single VCC (0)

0 Mbps

1...4, step 1 0

0...50 characters -



0...200 ms, step 1 ms 0 ms

0...100 ms, step 1 ms 0 ms

1...65535, step 1 -

0...255, step 1 -

-

1...65534, step 1 -

0...80 characters -

1...20, step 1 5

1...20, step 1 5

0...20, step 1 5

0...20, step 1 5

0

0...1, step 1 0 Delay is 0 access slots

0...100 %, step 1 % 90 %

900 kbps

-15...15 dB, step 0.1 dB -1 dB

-15...15 dB, step 0.1 dB 0 dB

-15...15 dB, step 0.1 dB 2 dB

-30...0 dB, step 1 dB -2 dB

0...100 %, step 1 % 70 %

800 kbps

-15...15 dB, step 0.1 dB -2 dB

-15...15 dB, step 0.1 dB -1 dB

-15...15 dB, step 0.1 dB 0 dB

0...100 %, step 1 % 50 %


50...2000 ms, step 50 ms

RNC <-> EM, RAC <-> RNC, RAC <-> RACApp

Single VCC (0), Multiple VCC (1)

RNC <-> EM, RAC <-> RNC, RAC <-> RACApp

0...64 Mbps, step 0.1 Mbps

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology WBTS -> RNC, RNC -> OMS topology, OMS topology -> NetAct topology, RNC -> OMS

Value set by the system, the string initialized with 0x00.RACApp <-> RAC, RAC

<-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRACApp <-> RAC, RAC <-> RNC, EM <-> RNCRNC -> RAC, RNC -> EM, RAC -> RACApp


RNC -> RAC, RNC -> EM, RAC -> RACApp





Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -


RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RAC, RNC -> OMS topology, RNC -


RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Bit 0: Access Class 0, Bit 1: Access Class 1, Bit 2: Access Class 2, Bit 3: Access Class 3,

By default, no access classes (AC0...AC15) are barred, that is, all access class values are

RNC <-> UE, RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


Assuming that maximum throughput of Iub 1000 kbit/s.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


Assumes that the maximum throughput of Iub is 1000 kbit/s.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

200 kbps

-15...15 dB, step 0.1 dB -10 dB

-15...15 dB, step 0.1 dB -10 dB

-15...15 dB, step 0.1 dB -10 dB

0...7, step 1 0 Lowest absolute priority.

Locked (0), Unlocked (1) Locked (0)

Disabled (1)

15

4095

Allowed (0), Denied (1) Allowed (0)

off (0)

-12 dBm

-95 dBm

Disabled (0)

-40...0 dB, step 0.5 dB -22 dB

1...65535, step 1 -

Disabled (0) -

-24...0 dB, step 0.5 dB -8 dB

-92 dBm

-10...17 dB, step 0.5 dB 2 dB

0

0

4...13, step 1 0

0...100, step 1 0

0...49, step 1 31

-92 dBm

3 dB

0...20 characters -

Not barred (1) Not barred

-

CPICH Ec/No (0)

0.01...1, step 0.01 1



Assumes that the maximum throughput of Iub is 1000 kbit/s.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> RAC, RNC <-> EM, RACApp <-> RAC

Enabled (0), Disabled (1), Automatic (2)

HSUPA interference cancellation is not applied in the cell.RNC <-> UE, RNC <->

WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Bit 0: signature #0 allowed, Bit 1: signature #1 allowed, Bit 2: signature #2 allowed, Bit

15 = 0b0000000000001111, i.e. signatures 0...3 allowed

RNC <-> UE, RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Bit 0: Sub Channel Number 0, Bit 1: Sub Channel Number 1, Bit 2: Sub Channel Number

4095 = 0b111111111111 i.e. all subchannels are allowedRNC <-> UE, RAC <->


Alternative scrambling code is allowed to use


off (0), PICpool1 (1), PICpool2 (2), PICpool3 (3), PICpool4 (4)

The cell does not belong to any PIC pool


-24...0 dBm, step 0.5 dBm


-115...-25 dBm, step 1 dBm

RNC <-> RAC, EM <-> RNC, RACApp <-> RAC


RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <->

The default value is not possible.




-115...-25 dBm, step 1 dBm

RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RAC

When reference service is 12.2 kbit/s AMR speech.RAC <-> RNC, EM <->

RNC, RAC <-> RACAppBit 0: CS AMR codec set (12.2), Bit 1: CS AMR codec set (12.2, 7.95, 5.9, 4.75), Bit 2: CS

'OFF', Configured AMR Mode Set feature is not in use.RAC <-> RNC, EM <->

RNC, RACApp <-> RACBit 0: CS WAMR codec set (12.65, 8.85, 6.6),

Value 0 'OFF', Configured WAMR mode sets are not employed


The cell is not connected to any CMOB


Default value 31 corresponds to the measured quantity value of ~ -9dB for CPICH


-115...-25 dBm, step 1 dBm

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, Planner <-> RAC, RAC <-> WBTS, EM <->

-15...100 dB, step 0.1 dB

EM <-> RNC, RAC <-> RNC, RAC <-> RACApp, RNC -> OMS topology, RNC -> OMS topology RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS

Barred (0), Not barred (1)

RNC -> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

100...180000 m, step 100 m



CPICH Ec/No (0), CPICH RSCP (1)


Not reserved (1) Not reserved

1...65535 s, step 1 s 3600 s timer default is 1h

Optimisation used (1)

0...100 %, step 1 % 40 %




0...10 s, step 0.5 s 2 s

0...10, step 1 5

Supported (1)

-30...30 dB, step 0.1 dB 0 dB

-10...0 dB, step 0.1 dB -1 dB

-30...30 dB, step 0.1 dB -0.5 dB

-30...0 dB, step 0.1 dB -3 dB

0...5 dB, step 0.2 dB 0.8 dB

0...5 dB, step 0.2 dB 1.2 dB

0...5 dB, step 0.2 dB 0.8 dB

0...5 dB, step 0.2 dB 1.2 dB

Enabled (1)

Disabled (0)

-

0...120, step 1 29

0...120, step 1 4

- Value set by system.

EVAM non capable (1) Cell not EVAM capable

Disabled (0)

1...5, step 1 -

0 degree

4...12, step 2 8

43200 ms

2160 ms


Reserved (0), Not reserved (1)


Optimisation not used (0), Optimisation used (1)RAC <-> RNC, EM <->


DC-HSDPA and MIMO disabled (0), DC-HSDPA and MIMO w/o 64QAM enabled (1), DC-HSDPA

DC-HSDPA and MIMO disabled (0)

Simultaneous usage disabled


Disabled (0), Periodical triggering enabled (1), Event based triggering enabled (2), Both





Supported by default, modify if cell does not support DPC Mode Changing.


Target cell does not need to be at lower load in UL.RAC <-> RNC, EM <->

RNC, RACApp <-> RACDefault value is 1 dB below PrxTarget


Default value is 3dB below PtxTarget

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> EMRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


By default the directed RRC connection setup is enabled in the cell.RAC <-> RNC, EM <->


By default the functionality is disabled.

WBTS -> RNC, RNC -> RAC, RNC -> EM, RNC -> OMS topology, RNC -> OMS topology UI

Enabled (0), Disabled (1), Not defined (255)

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> WBTS, RNC -> UERAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> WBTS, RNC -> UEWBTS -> RNC, RNC -> RAC, RNC -> EM, RNC -> OMS topology, RNC -> OMS topology UI


RNC -> EM, RNC -> RAC, WBTS -> RNC, RNC -> OMS topology, RNC -> OMS topology

EVAM capable (0), EVAM non capable (1)



Enhanced Virtual antenna mapping feature disabled in cell.RAC <-> RNC, EM <->

RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RAC <-> RACApp, RNC <-> WBTS

0...359 degree, step 1 degree

Default value is "zero" because "not defined" (65535) cannot be used over the Iub interface.

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS

Default 8 which means 45 degree granularity for the possible values of the optimum phase


0...120000 ms, step 10 ms

43200 ms is default value for Keep time.


0...120000 ms, step 10 ms

2160 ms is default value for sweep time.

0...8, step 1 6

Disabled (0) -

-

0...10 %, step 1 % 5 %

0...100 %, step 1 % 75 %


32 kbps (32)

32 kbps (32)

1...32, step 1 3

0...120 s, step 1 s 5 s

Disabled (0)

Disabled (0)


1...100, step 1 0

1...100, step 1 0

Disabled (0)

-6...13 dB, step 0.5 dB 6 dB

384 kbps (6) 384 kbps


Disabled (0)

-

0 ms (0)

0.2...5 s, step 0.2 s 0.2 s

128000 bps

Disabled (0) -

0 ms (0)

458124

512 bytes (512)

32 kbps

-3...0 dB, step 0.1 dB 127 dB

24 kbps

-3...3 dB, step 0.1 dB 127 dB




Immediate F-DPCH allocation (0), F-DPCH allocation after RRC connection setup (1), F-

Immediate F-DPCH allocation (0)

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

32 kbps (32), 64 kbps (64), 128 kbps (128), 256 kbps (256), 384 kbps (384), 512 kbps


32 kbps (32), 64 kbps (64), 128 kbps (128), 256 kbps (256), 384 kbps (384), 512 kbps

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC






By default the functionality is disabled.


16 kbps (1), 64 kbps (3), 128 kbps (4), 384 kbps (6)WBTS -> RNC, RNC ->

EM, RNC -> RAC, RNC -> OMS topology, RNC -> OMS topology UI

HSDPA capable (0), HSDPA non capable (1), Not defined (255)RAC <-> RNC, EM <->








8000...1800000 bps, step 8000 bps






Bit 0: Originating conversational call, Bit 1: Originating streaming call, Bit 2: Originating

0001101111110110001100b


Infinity (0), 8 bytes (8), 16 bytes (16), 32 bytes (32), 64 bytes (64), 128 bytes (128), 256 bytes




HSPA load state not set due to a low HSDPA bit rateRAC <-> RNC, EM <->

RNC, RACApp <-> RAC0...248 kbps, step 2 kbps


HSPA load state not set due to low E-DCH bit rate

0.3...1, step 0.1 2

Disabled (0)

Disabled (0)

1...100, step 1 0

32

0...128, step 1 8

Disabled (0)

Disabled (0)

Disabled (0)

1...10, step 1 2

Not supported (0)

-

Disabled (0)

64 kbps (64)

64 kbps (64)

1...4.75, step 0.25 1

1...4.75, step 0.25 1

Allowed (0) Allowed

0...255, step 1 0

1...65535, step 1 -

0...100 %, step 1 % 70 %

0...100 %, step 1 % 70 %

0...255 s, step 1 s 30 s

0...255 s, step 1 s 30 s

0...255 s, step 1 s 30 s

0...255 s, step 1 s 30 s

0...255, step 1 10

0...100 %, step 1 % 50 %

0...10 s, step 1 s 2 s

0...10 s, step 1 s 2 s

0...10 s, step 1 s 2 s


HSPA load state not set due to HSUPA resource






QoS prioritization is not in use for HS transport (0), QoS prioritization is used for HS NRT

QoS prioritization is not in use for HS transport (0)RAC <-> RNC, EM <->

RNC, RACApp <-> RACBit 0: N/A (Always 0), Bit 1: N/A (Always 0), Bit 2: N/A (Always 0), Bit 3: N/A (Always 0), Bit 4:

The HSDPA Dynamic code allocation functionality is deactivated (fixed 5

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> RAC, RNC <-> EM, RACApp <-> RAC







Default value 2 enables UE-UE call in cell with 16QAMRAC <-> RNC, EM <->

RNC, RACApp <-> RACNot supported (0), Supported (1)


ICR capable (0), ICR non capable (1)



Incoming ISHO from LTE is disabled.





RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <->

Allowed (0), Not allowed (1)

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RNC <-> MSC, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <->


RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppEM <-> RNC, RAC <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

0...10 s, step 1 s 2 s

0...255, step 1 10

0...32, step 1 0

0...32, step 1 0

-30...0 dB, step 0.1 dB -1.5 dB

-10...0 dB, step 0.1 dB -0.7 dB

0...100 %, step 1 % 80 %

1...60 s, step 1 s 5 s

1...60 s, step 1 s 5 s

1...60 s, step 1 s 5 s

1...60 s, step 1 s 5 s

0...60 s, step 1 s 0 s

0...60 s, step 1 s 0 s

0...60 s, step 1 s 0 s

0...60 s, step 1 s 0 s

Disabled (0)

0...268435455, step 1 -

-25...0 dB, step 1 dB -25 dB SRB's on HSPA is used.

-25...0 dB, step 1 dB 0 dB


Disabled (0) disabled

Disabled (0) disabled


Offset not used (0) Power offset not used.

Disabled (0)

Disabled (0)

384 kbps (384)

384 kbps (384)

1...65535, step 1 40

- Value set by the system.

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppEM <-> RNC, RAC <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC


Cell Reselection to LTE is disabled.

RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, EM <-> WBTS, Planner <-> RAC, RACApp <->



E-DCH 10ms TTI is used








disabled (0), enabled when UE is in Cell_FACH/Cell_PCH state (1), enabled when

enabled when UE is in Cell_FACH/Cell_PCH state (1)

Enabled when the UE is in Cell_FACH/Cell_PCH state.RAC <-> RNC, EM <->


RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, Planner <-> RAC, RAC <-> WBTS, EM <->

Offset not used (0), Offset used (1)



MIMO is disabled in the cell




MIMO with 64QAM disabled (0), MIMO with 64QAM enabled (1)

MIMO with 64QAM disabled (0)

MIMO with 64QAM disabled





RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> EM, RNC -> RAC, WBTS -> RNC

0...50 dBm, step 0.1 dBm

0...6 dB, step 0.1 dB 1 dB

1...4, step 1 1 No code multiplexing.

1...512, step 1 0

1...1024, step 1 0

1...1024, step 1 0

1...255, step 1 0

1...1024, step 1 0

0...255, step 1 16

0...32, step 1 6

0...127, step 1 10

0...31, step 1 5

960 kbps, SF4 (0) -

8 kbps (8)

8 kbps (8)

0...7, step 1 3

4 (2)

4 (2)

20 (4)

1 (0)

1024 bytes. 1 KB (8)

1024 bytes. 1 KB (8)

1...16, step 1 8

1...3, step 1 1

1...256, step 1 2

1...16, step 1 8

Not used (0)

Not used (0)


1...100, step 1 0

1...100, step 1 -

RAC <-> RNC, EM <-> RNC, RACApp <-> RACEM <-> RNC, RAC <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

The default value does not restrict the number of HSDPA users.RAC <-> RNC, EM <->

RNC, RACApp <-> RACThe default value does not restrict the number of HSDPA users. RAC <-> RNC, EM <->

RNC, RACApp <-> RACBy default, the number of E-DCH allocations is not restricted by this parameter


Default value does not restrict the number of HSDPA users.RAC <-> RNC, EM <->

RNC, RACApp <-> RACThe default value does not restrict the number of HS-DSCH MAC-d flows.

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> WBTS, RNC -> UE

960 kbps, SF4 (0), 1920 kbps, 2*SF4 (1), 3840 kbps, 2*SF2 (2), 5760 kbps, 2*SF2 + 2*SF4 (3)






Multiple PLMN List not broadcasted (0), Multiple PLMN List broadcasted (1)

Multiple PLMN List not broadcasted (0)

RNC -> WBTS, RAC <-> RNC, EM <-> RNC, WBTS -> UE, RNC -> UE, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <->

1 (0), 2 (1), 4 (2), 10 (3), 20 (4), 50 (5), 100 (6), 200 (7), 400 (8), 600 (9), 800 (10), 1000 (11)


1 (0), 2 (1), 4 (2), 10 (3), 20 (4), 50 (5), 100 (6), 200 (7), 400 (8), 600 (9), 800 (10), 1000 (11)


1 (0), 2 (1), 4 (2), 10 (3), 20 (4), 50 (5), 100 (6), 200 (7)RNC <-> UE, RAC <->

RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <->

1 (0), 50 (1), 100 (2), 200 (3), 400 (4), 600 (5), 800 (6), 1000 (7), 2 (8), 4 (9), 10 (10), 20 (11)





RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> UE, RNC -> OMS topology, RNC -> RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Not used (0), 30 s (1), 60 s (2), 120 s (3), 180 s (4), 240 s (5)RNC <-> UE, RAC <->


Not used (0), 10 s (1), 20 s (2), 30 s (3), 40 s (4), 50 s (5), 60 s (6), 70 s (7)


Event E measurement not initiated (0), Event E measurement initiated (1)

Event E measurement initiated (1)

Event E measurement is initiated.

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology




0...10, step 1 2

0...60 s, step 1 s 10 s

0...60 s, step 1 s 60 s

0...60 s, step 1 s 20 s

0...60 s, step 1 s 30 s

0...60 s, step 1 s 15 s

Disabled (0)

1...50, step 1 0

Disabled (1)

72 (2)

20 km (3)

-35...-10 dB, step 1 dB -25 dB

0...15, step 1 0

1...64, step 1 8

4...13, step 1 0

-10...5 dB, step 1 dB -8 dB NP = 72

0...300, step 1 10

0...300, step 1 10

0...50 dBm, step 1 dBm 37 dBm

0...300, step 1 0



0...6, step 1 0


0...300, step 1 5

0...300, step 1 5

0...128, step 1 10

0...300, step 1 5

0...128, step 1 10

0...300, step 1 5


RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACApp

When the feature is active, the recommended value is 10 s.

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RAC



No reference to PFL object.


Enabled (0), Disabled (1), Automatic (2)

HSUPA interference cancellation is not applied in the cell.RNC <-> UE, RNC <->

WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

18 (0), 36 (1), 72 (2), 144 (3)

RNC <-> RAC, RNC <-> EM, RAC <-> Optimizer, RAC <-> RACApp

5 km (1), 10 km (2), 20 km (3), 60 km (4), 180 km (5)RNC <-> UE, RAC <->


Default value, when MHA is not in use.

RNC <-> UE, RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> RAC, RNC <-> EM, RACApp <-> RAC


RNC <-> UE, RNC <-> WBTS, RAC <-> RNC, RACApp <-> RAC, RNC <-> EMRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACApp

Assumption is that RT HSPA is not widely used.RNC <-> RAC, RNC <->

EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACApp



0...3, step 1 0

NO (0), YES (1) NO (0)

-5...10 dB, step 1 dB 2 dB

0...6 dB, step 0.25 dB 2 dB

0...6 dB, step 0.25 dB 3 dB

0...6 dB, step 0.25 dB 4 dB


NoHSPA05ReConf (0)

0...511, step 1 -

0...30 dB, step 0.1 dB 2 dB

0...30 dB, step 0.1 dB 2 dB

0...30 dB, step 0.1 dB 0 dB

0...30 dB, step 0.1 dB 8 dB 8 dB over PrxNoise

0...30 dB, step 0.1 dB 6 dB 6 dB over PrxNoise.

2 (2)

-105 dBm

0...6 dB, step 0.1 dB 1 dB

0...6 dB, step 0.1 dB 0.8 dB

0...30 dB, step 0.1 dB 4 dB

0...30 dB, step 0.1 dB 65535 dB

0...30 dB, step 0.1 dB 4 dB

0...30 dB, step 0.1 dB 4 dB

0...1 dB, step 0.1 dB 0.5 dB

0...1 dB, step 0.1 dB 0.5 dB

800 ms

-22...5 dB, step 1 dB -8 dB

-35...15 dB, step 0.1 dB 7 dB

-35...15 dB, step 0.1 dB -2 dB

RNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> RAC, RNC <-> EM, RAC <-> RACAppRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

It should be selected so that preamble power is equal or less than the total power of the

RNC <-> WBTS, RAC <-> RNC, RACApp <-> RAC, RNC -> UE, EM <-> RNCRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Typical values are between 1 dB and 3 dB


NoHSPA05ReConf (0), HSPA0 (1), HSPA5 (2)

RNC -> UE, RNC -> WBTS, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <->



Represents about 800 kbps total PS data DCH throughput in ULRAC <-> RNC, EM <->

RNC, RACApp <-> RAC, RNC <-> WBTSRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

(Throughput based UL DCH overload control is not used.)RNC <-> RAC, RNC <->

EM, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> WBTSRAC <-> RNC, EM <-> RNC, RNC -> WBTS, RAC <-> RACApp

0 (0), 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 7 (7), 8 (8), 9 (9), 11 (10), 13 (11), 15 (12), 17 (13), 19

RNC -> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology

-130...-50 dBm, step 0.1 dBm


Autotuning algorithm off (0), Autotuning algorithm on (1)

Autotuning algorithm on (1)

RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RAC, RNC -> OMS topologyRAC <-> RNC, EM <-> RNC, RACApp <-> RACPlanner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topologyRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Use of dynamic UL target power is disabled.

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RNC -> WBTS, RAC <-> RACApp

800...60000 ms, step 100 ms

RNC <-> UE, RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

43 dBm

37 dBm

-5...30 dB, step 0.1 dB 9 dB -

-5...30 dB, step 0.1 dB 20 dB -

41 dBm

0...2 dB, step 0.1 dB 0.5 dB

-11 dB

43 dBm

2 (2)

0...6 dB, step 0.1 dB 1 dB

-5 dB

0 dB

0 dB

-11 dB

0 dB

-5...15 dB, step 0.25 dB 5 dB

-5...10 dB, step 0.25 dB 3 dB

0...10 dB, step 0.5 dB 3 dB

0...6 dB, step 0.1 dB 0.8 dB

3 dB

0...6 dB, step 0.1 dB 0.8 dB

37 dBm

-35...15 dB, step 0.1 dB -5 dB

33 dBm

-35...15 dB, step 0.1 dB -3 dB

-35...15 dB, step 0.1 dB 0 dB

-35...15 dB, step 0.1 dB -5 dB

-35...15 dB, step 0.1 dB -2 dB

-35...15 dB, step 0.1 dB -2 dB

-35...15 dB, step 0.1 dB -3 dB

40 dBm

38.5 dBm



RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, AC <-> PS, AC <-> PC

-10...50 dBm, step 0.1 dBm

If max bit rate is set to 128kbps, the optimal PtxDLAbsMax is 37dBm.

RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> BTSRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> BTSRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

-10...50 dBm, step 0.1 dBm

2 dB below cell max output power (43 dBm)


-32...31.75 dB, step 0.25 dB



Value conforms to the cell maximum transmission power 43 dBm (20W)

RAC <-> RNC, EM <-> RNC, RNC -> WBTS, RAC <-> RACApp

0 (0), 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 7 (7), 8 (8), 9 (9), 11 (10), 13 (11), 15 (12), 17 (13), 19

RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RAC, RNC -> OMS topologyRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

-32...31.75 dB, step 0.25 dB


-32...31.75 dB, step 0.25 dB


-32...31.75 dB, step 0.25 dB


-32...31.75 dB, step 0.25 dB


-32...31.75 dB, step 0.25 dB


-32...31.75 dB, step 0.25 dB

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, AC <-> PS, AC <-> PC

-10...50 dBm, step 0.1 dBm

RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RACRNC <-> WBTS, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC

-10...50 dBm, step 0.1 dBm

Assuming the BTS max power = 43 dBm/carrier

RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RAC <-> RACAppRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Valid for SF = 128 (30 ksps) only

RAC <-> RNC, EM <-> RNC, RNC <-> WBTS, Planner <-> RAC, RACApp <-> RACPlanner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology

-10...50 dBm, step 0.1 dBm

cell maximum transmission power 43 dBm (20W)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC-10...50 dBm, step 0.1 dBm

1...255, step 1 5

40 dBm

36 dBm

0...5 dB, step 0.1 dB 1 dB

0...5 dB, step 0.1 dB 1 dB

32767 dBm

32767 dBm

-5...0 dB, step 0.1 dB -1 dB

800 ms

-24...0 dB, step 0.5 dB -24 dB







-24...0 dB, step 1 dB -18 dB

-115 dBm

0...255, step 1 -

2 messages (2)

EcNo (0), RSCP (1) RSCP (1) RSCP is reported.

EcNo (0), RSCP (1) EcNo (0) EcNo is reported.

0...50, step 1 50

0...50, step 1 0

1...32, step 1 8

800 ms

11 (10)

4...13, step 1 0

600 ms (6)

1200 ms (5)

200 ms


PtxTargetPS can be adjusted every 5th reporting period of the PtxTotal/PtxNonHSPA


-10...50 dBm, step 0.1 dBm

Corresponds with the default value of PtxTargetRAC <-> RNC, EM <->

RNC, RACApp <-> RAC-10...50 dBm, step 0.1 dBm


-10...50 dBm, step 0.1 dBm

Use of dynamic DL target power is disabled.


-10...50 dBm, step 0.1 dBm

The same value that is used for PtxTarget.

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RNC -> WBTS, RAC <-> RACApp

800...60000 ms, step 100 ms

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

-119...-25 dBm, step 2 dBm



RNC -> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

1 message (1), 2 messages (2), 3 messages (3), 4 messages (4)

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

50 means maximum 0.5 s time before starting the next RACH attemptRNC <-> UE, RAC <->

RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RNC -> WBTS, RAC <-> RACApp

800...60000 ms, step 100 ms


0 (0), 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 7 (7), 8 (8), 9 (9), 11 (10), 13 (11), 15 (12), 17 (13), 19




Not used (0), 100 ms (1), 200 ms (2), 300 ms (3), 400 ms (4), 500 ms (5), 600 ms (6)


Not used (0), 800 ms (1), 900 ms (2), 1000 ms (3), 1100 ms (4), 1200 ms (5), 1300 ms (6),






200...60000 ms, step 100 ms

2 (2)


1...100, step 1 0

1...100, step 1 0

1...100, step 1 0

0...10 %, step 1 % 5 %

0...100 %, step 1 % 75 %

CS AMR 12.2 kbps (0)

Not used (0), Used (1) Not used (0)

5...11, step 1 10


1...100, step 1 0

1...100, step 1 -

2 antennas (1)

0...65535, step 1 -

0...65535, step 1 0

-1...91 dB, step 2 dB -1 dB

-1...91 dB, step 2 dB -1 dB

1 (0)

-3...3 dB, step 0.1 dB 0 dB

66559

457728

0...12, step 1 0

0...32, step 1 1

0...32, step 1 1

0...120 s, step 1 s 0 s

0...120 s, step 1 s 0 s

1...16, step 1 10

5...45 s, step 5 s 15 s







0 (0), 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 7 (7), 8 (8), 9 (9), 11 (10), 13 (11), 15 (12), 17 (13), 19








CS AMR 12.2 kbps (0), CS AMR 12.65 kbps (1), CS transparent data 64 kbps (2), PS streaming

CS AMR 12.2 kbps is used as the reference service.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology





1 antenna (0), 2 antennas (1), 4 antennas (2)

As a default two antennas are used in the receiving direction.RNC <-> MSC, RAC <->

RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RAC, RNC



The value must be checked before activating SABRNC <-> UE, RAC <->


UE shall consider the negative value - 1 to be 0.RNC <-> UE, RAC <->


UE shall consider the negative value - 1 to be 0RAC <-> RNC, EM <->

RNC, RACApp <-> RAC, RNC <-> UE

SIB4 not broadcasted (0), SIB4 broadcasted (1)

SIB4 not broadcasted (0)

SIB4 is not broadcasted in a cell.

RAC <-> RNC, EM <-> RNC, WBTS -> UE, RNC -> WBTS, RACApp <-> RAC, RNC -> UE

1 (0), 2 (1), 4 (2), 8 (3), 16 (4), 32 (5), 64 (6), 128 (7), 256 (8)RAC <-> RNC, EM <->



0000010000001111111111b



0001101111110000000000b


A cell does not belong to any particular sector

RAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RAC <-> RACAppRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

This parameter should be between the Sintrasearch and SsearchRAT, but high


0...20 dB, step 2 dB 10 dB

0...20 dB, step 2 dB 10 dB



0...1, step 0.1 0.7



-1...91 dB, step 2 dB -1 dB

-1...91 dB, step 2 dB -1 dB



2000 ms (10)

1...15 s, step 1 s 6 s

1...15 s, step 1 s 1 s

0...15 s, step 1 s 3 s

180 s (4)

40 s (2)

200 ms

2 (2)

60 s (2)

Not used (0)

0.01...0.1, step 0.01 0.04

0...100 %, step 1 % 30 %

-


0...10 ms, step 1 ms 10 ms

0...199 ms, step 1 ms 25 ms

128 bytes (128)

0...31 s, step 1 s 2 s

0...6.2 s, step 0.2 s 2 s

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

UE will start the neighboring measurements when CPCIH EcNo <

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Minimum value. If SrxlevServingCell(CPICH RSCP) <= Sprioritysearch1 or


Minimum value. If SrxlevServingCell (CPICH RSCP) <= Sprioritysearch1 or


UE shall consider the negative value - 1 to be 0RNC <-> UE, RAC <->


UE shall consider the negative value - 1 to be 0RNC <-> UE, RAC <->


GSM measurements will start when it is not possible to maintain a call with good quality:

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

100 ms (0), 200 ms (1), 400 ms (2), 600 ms (3), 800 ms (4), 1000 ms (5), 1200 ms (6), 1400 ms

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <-> RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0 s (0), 10 s (1), 30 s (2), 60 s (3), 180 s (4), 600 s (5), 1200 s (6), 1800 s (7)


10 s (0), 20 s (1), 40 s (2), 80 s (3), 160 s (4), 320 s (5), 640 s (6), 1280 s (7)


200...60000 ms, step 100 ms






0 (0), 1 (1), 2 (2), 3 (3), 4 (4), 5 (5), 6 (6), 7 (7), 8 (8), 9 (9), 11 (10), 13 (11), 15 (12), 17 (13), 19


Not used (0), 30 s (1), 60 s (2), 120 s (3), 180 s (4), 240 s (5)RNC <-> UE, RAC <->


Not used (0), 10 s (1), 20 s (2), 30 s (3), 40 s (4), 50 s (5), 60 s (6), 70 s (7)

This parameter is not needed if TCrmax equals 'Not used'.RAC <-> RNC, EM <->

RNC, RACApp <-> RAC, RNC -> UERAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> WBTSRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -

0 chips (0), 256 chips (1), 512 chips (2), 768 chips (3), 1024 chips (4), 1280 chips (5), 1536



Minimum value. Cell reselection to a cell on a lower absolute priority layer than the camped

RNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> WBTS, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0 bytes (0), 8 bytes (8), 16 bytes (16), 32 bytes (32), 64 bytes (64), 128 bytes (128), 256 bytes

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

0...31 s, step 1 s 2 s

0...16383, step 1 -

24 dBm

21 dBm

21 dBm

8 kbps

-3...3 dB, step 0.1 dB -0.5 dB

1...65535, step 1 -

320 ms (5)

Not used (0), Used (1) Not used (0) HCS not used

1...40, step 1 30

Override allowed (1)

-

0...4095, step 1 65535 -

0...999, step 1 -

0...999, step 1 -


0...4095, step 1 65535

0

-

360 degrees

Height (0), Depth (1) Height (0)

0...10000 m, step 1 m -

-

0...99 ms, step 1 ms -

0...59 min, step 1 min -

0...59 s, step 1 s -

-

-

0...99, step 1 -

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> WBTS, RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RAC, RNC


RNC <-> UE, Planner <-> RAC, RAC <-> RNC, RACApp <-> RAC, RNC <-> EM


Default value 24 dBm corresponds to the UE power class 3.RNC <-> UE, EM <->



The default value 21 dBm corresponds to the UE power class 4.RNC <-> UE, EM <->



Default value 21 dBm corresponds to the UE power class 4.RAC <-> RNC, EM <->

RNC, RACApp <-> RAC0...128 kbps, step 1 kbps

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC <-> WBTS, WBTS <->



80 ms (3), 160 ms (4), 320 ms (5), 640 ms (6), 1280 ms (7), 2560 ms (8), 5120 ms (9)

RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Override not allowed (0), Override allowed (1)

Voice traffic can override the HSUPA traffic scheduled earlier.RNC -> RAC, RNC ->



RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> MSC, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RAC, RNC -> OMS topology, RNC -


RAC <-> RNC, EM <-> RNC, Planner <-> RAC, RACApp <-> RAC, RNC -> OMS topology, RNC -


RAC <-> RNC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology UIRNC <-> SGSN, Planner <-> RAC, RAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EM, RNC -> OMS topology, RNC -> OMS topology UI

Bit 0: BL-USER, Bit 1: BL-WF-COCO, Bit 2: BL-FL-COCO, Bit 3: BL-WBTS, Bit 4: BL-


0...359 degrees, step 1 degrees




Default value: Omnidirectional

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RAC <-> RACApp, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RAC <-> RACApp, RNC -> OMS topology, RNC -> OMS topology


RAC <-> RNC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology UI










Positive (North) (0), Negative (South) (1)







0...59 min, step 1 min -

0...59 s, step 1 s -

-

Outdoor (1), Indoor (2) Outdoor (1)

0...200000 m, step 10 m -

1...200001 m, step 10 m -

Not existing (0)


1...65535, step 1 -

0...999, step 1 -

0...999, step 1 -


1...4095, step 1 -

1...65535, step 1 -

0...3 dB, step 0.1 dB 0.7 dB

0...3 dB, step 0.1 dB 0.7 dB

0...3 dB, step 0.1 dB 1.5 dB

0...3 dB, step 0.1 dB 1.5 dB

0...1, step 0.01 0.5

1...15, step 1 1

1...15, step 1 2

-6.3...0, step 0.1 -2

-11...20 dB, step 0.1 dB 8 dB

-11...20 dB, step 0.1 dB 6.5 dB

-6.3...0, step 0.1 -1.3

127

127






Positive (East) (0), Negative (West) (1)


RAC <-> EM, EM <-> RNC, RACApp <-> RAC, RAC <-> RNC, RNC -> OMS topology, RNC -> RNC <-> UE, RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -

Possibly heavy multipath and NLOS conditions (1), No or light multipath and usually LOS

Not defined or mixed environment (3)

Default value: not defined or mixed environment RAC <-> RNC, EM <->

RNC, RACApp <-> RACDefault value is not possible




Not existing (0), Existing (1)

Default value: Not existing



RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology UI


RAC <-> RNC, EM <-> RNC

A Default value is not possible.

RAC <-> RNC, EM <-> RNC

A Default value is not possible

RAC <-> RNC, EM <-> RNCRAC <-> RNC, EM <-> RNC, RNC -> OMS topology, RNC -> OMS topology UI, RACApp <-

A Default value is not possible.



RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC

Block error is detected from the first HARQ retransmission.RAC <-> RNC, EM <->

RNC, RACApp <-> RACBlock error is detected from the second HARQ retransmission.RAC <-> RNC, EM <->


Default value represents the block error ratio of 1%RAC <-> RNC, EM <->


Default value represents the block error ratio of 5%RAC <-> RNC, EM <->

RNC, RACApp <-> RACBit 0: 8 kbps, Bit 1: 16 kbps, Bit 2: 32 kbps, Bit 3: 64 kbps, Bit 4: 128 kbps, Bit 5: 256 kbps, Bit

Primary quality target is used for all the downlink DCH data rates.RAC <-> RNC, EM <->

RNC, RACApp <-> RACBit 0: 8 kbps, Bit 1: 16 kbps, Bit 2: 32 kbps, Bit 3: 64 kbps, Bit 4: 128 kbps, Bit 5: 256 kbps, Bit

Primary quality target is used for all the uplink DCH data rates.RAC <-> RNC, EM <->

RNC, RACApp <-> RAC

-6.3...0, step 0.1 -2

-11...20 dB, step 0.1 dB 8 dB

-11...20 dB, step 0.1 dB 6.5 dB

-6.3...0, step 0.1 -1.3

63

31

-11...20 dB, step 0.1 dB 8 dB

-6.3...0, step 0.1 -2

-11...20 dB, step 0.1 dB 8 dB

-6.3...0, step 0.1 -2

-6...0 dB, step 0.1 dB -0.5 dB

-6...0 dB, step 0.1 dB -2 dB

-6...0 dB, step 0.1 dB -2 dB

15

7

-6...0 dB, step 0.1 dB -0.5 dB

-6...0 dB, step 0.1 dB -3 dB

-6...0 dB, step 0.1 dB -4 dB

-6...6 dB, step 0.1 dB 0 dB

-11...20 dB, step 0.1 dB 4 dB

-11...20 dB, step 0.1 dB 6 dB

-11...20 dB, step 0.1 dB 7.5 dB

-11...20 dB, step 0.1 dB 5.5 dB

-11...20 dB, step 0.1 dB 7 dB

-11...20 dB, step 0.1 dB 6.5 dB

-11...20 dB, step 0.1 dB 8 dB

-11...20 dB, step 0.1 dB 5 dB

-11...20 dB, step 0.1 dB 8 dB


Default value represents the block error ratio of 1%.RAC <-> RNC, EM <->


Default value represents the block error ratio of 5%.RAC <-> RNC, EM <->

RNC, RACApp <-> RACBit 0: 8 kbps, Bit 1: 16 kbps, Bit 2: 32 kbps, Bit 3: 64 kbps, Bit 4: 128 kbps, Bit 5: 256 kbps,

Primary quality target is used for all the downlink DCH data rates.RAC <-> RNC, EM <->

RNC, RACApp <-> RACBit 0: 8 kbps, Bit 1: 16 kbps, Bit 2: 32 kbps, Bit 3: 64 kbps, Bit 4: 128 kbps,

Primary quality target is used for all the uplink DCH data rates.RAC <-> RNC, EM <->


Default value represents the block error ratio of 1 %.RAC <-> RNC, EM <->




Bit 0: SF 4, Bit 1: SF 8, Bit 2: SF 16, Bit 3: SF 32, Bit 4: SF 64, Bit 5: SF 128, Bit 6: SF 256,

Data rate gain is applied with the uplink DPDCH data rates higher than 120 kbps.


Bit 0: SF 4, Bit 1: SF 8, Bit 2: SF 16, Bit 3: SF 32, Bit 4: SF 64, Bit 5: SF 128, Bit 6: SF 256,

Data rate gain is applied with the uplink DPDCH data rates higher than 120 kbps.

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC

-6.3...0, step 0.1 -2.7

-11...20 dB, step 0.1 dB 8 dB

-6.3...0, step 0.1 -2.7

-11...20 dB, step 0.1 dB 8 dB

-11...20 dB, step 0.1 dB 8 dB

-6.3...0, step 0.1 -2

-3...3 dB, step 0.1 dB -0.5 dB

-3...3 dB, step 0.1 dB -1 dB

-11...20 dB, step 0.1 dB 8 dB

-6.3...0, step 0.1 -2

-3...3 dB, step 0.1 dB -0.5 dB

-6.3...0, step 0.1 -1

-6.3...0, step 0.1 -1

4.5 dB

7.5 dB

4.5 dB

6 dB

9 dB

4.5 dB

8 dB

7.5 dB

10.5 dB

7.5 dB

9 dB

12 dB

7.5 dB

11 dB

0...10 dB, step 0.1 dB 6 dB

-10...0 dB, step 0.1 dB -6 dB


Default value represents the block error ratio of 0.2 %.RAC <-> RNC, EM <->


Default value represents the block error ratio of 0.2 %.RAC <-> RNC, EM <->

RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RAC





Default value equals to 10% of BLER target.


Default value equals to 10% of BLER target.


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-8.2...17.3 dB, step 0.1 dB


-6...6 dB, step 0.1 dB 0 dB

-6...0 dB, step 0.1 dB -3 dB

-6...0 dB, step 0.1 dB -4 dB

-

1...5, step 1 -

Allowed (1) Allowed

0...999, step 1 -

0...999, step 1 -


0...15 characters -

1...128, step 1 -

0...10, step 1 0

-

Disabled (0)

0...100 %, step 1 % -

Fifth priority (5)

Lowest priority (7)

Sixth priority (6)

Third priority (3)

Highest priority (1)

Second priority (2)

Fourth priority (4)

1...100 %, step 1 % 100 %

None (0), Iupc (1) None (0)

Disabled (0)

Disabled (0)

Not in use. (255) No connection to SAS.

RNC Centric Mode (0)

Not allowed (0)

0...100 %, step 1 % 0 %

RAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC -> RAC, RNC -> EM














All PLMNs are authorised








RNC <-> EM, RAC <-> RNC, RACApp <-> RACRNC <-> EM, RAC <-> RNC, RACApp <-> RAC

Shape is not used (0), Highest priority (1), Second priority (2), Third priority (3), Fourth

RNC <-> EM, RAC <-> RNC, RACApp <-> RAC










RNC <-> EM, RNC <-> RAC, RACApp <-> RAC


RNC <-> RAC, RNC <-> EM, RAC <-> RACAppRAC <-> RNC, EM <-> RNC, RACApp <-> RACRNC <-> RAC, RNC <-> EM, RAC <-> RACApp


LCS Shape Conversion disabled




IN0 (0), IN1 (4), NA0 (8), NA1 (12), Not in use. (255)RAC <-> RNC, EM <->

RNC, RACApp <-> RACRNC Centric Mode (0), SAS Centric Mode (1)



RAC <-> RNC, RACApp <-> RAC, RNC <-> EM

LCS Periodical Reporting Disabled

None (0)

1...255 s, step 1 s 140 s

1...255 s, step 1 s 25 s

Fifth priority (5)

Lowest priority (7)

Sixth priority (6)

Third priority (3)

Highest priority (1)

Second priority (2)

Fourth priority (4)

0...4294967295, step 1 0 Not defined.

Disabled (0)

-

1...1, step 1 1


None (0), UE Based Method (1), NW Based Method (2)RAC <-> RNC, EM <->

RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RAC <-> RNC, EM <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology RNC <-> EM, RAC <-> RNC, RACApp <-> RACRNC <-> EM, RAC <-> RNC, RACApp <-> RAC






RNC <-> EM, RAC <-> RNC, WBTS <-> RAC, RAC <-> RACApp













RAC <-> RNC, RACApp <-> RAC, RNC -> OMS topology, RNC -> OMS topology UI, RNC <->

Special value Required on creation Modification

Value set by the system Not modifiable

Mandatory Not modifiable

Mandatory On-line

Mandatory On-line

Optional On-line

Not defined (0) Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line


Mandatory On-line

Optional On-line




Mandatory On-line

Mandatory On-line


Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Formula for getting Internal Value

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value * 10

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

Zero has special meaning only when WPS is enabled. (0)

internal_value = gui_value

internal_value = gui_valueinternal_value = gui_value



Mandatory On-line

Mandatory On-line

Mandatory On-line

Not defined (0) Mandatory On-line

Not defined (0) Mandatory On-line



Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line



Mandatory On-line

Optional On-line



internal_value = gui_value * 2

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value






Mandatory On-line



Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line


Mandatory On-line


Mandatory On-line



Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Not defined (65535) Value set by the system Not modifiable





internal_value = gui_value * 2internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value



internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value





Optional On-line

Optional On-line


Optional On-line

Mandatory Requires object locking



Optional Requires object locking









Optional Not modifiable


Not defined (0) Mandatory Requires object locking













internal_value = gui_valueinternal_value = gui_value / 10


internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value


Not defined (4294967295)






Not Defined (0) Optional Not modifiable






Optional On-line

Optional On-line

Optional On-line


Optional On-line


Optional On-line

Optional On-line












Default profile (0) Optional Requires object locking
































Optional On-line

Optional On-line


Optional On-line





Optional On-line


Optional On-line




Optional On-line

Optional On-line







Special value means unspecified. (255)


Special value means unspecified. (4294967295)






WBTS object not assigned to the COCO object (0)





Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line




Not used as ISHO cause for CS voice connection (126)


Not used as ISHO cause for CS data connection (126)


Not used as ISHO cause for NRT PS data connection (126)


Not used as ISHO cause for RT PS data connection (126)

internal_value = gui_value * 2internal_value = gui_valueinternal_value = gui_value

A return handover back to GSM is disabled (0)


Repetitive GSM measurements are disabled (0)


Return SLHOs to GSM are disabled (0)


Not used as ISHO cause for CS voice connection (126)


Not used as ISHO cause for CS data connection (126)


Not used as ISHO cause for NRT PS data connection (126)


Not used as ISHO cause for RT PS data connection (126)


If set to 0, Feature is not used. (0)



Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Mandatory On-line

Not used as IFHO cause for CS voice connection (126)


Not used as IFHO cause for CS data connection (126)


Not used as IFHO cause for NRT PS data connection (126)


Not used as IFHO cause for RT PS data connection (126)


Repetitive inter-frequency handovers are disabled (0)


Repetitive inter-freq. measurements are disabled (0)


Repetitive IF SLHOs are disabled (0)


Not used as IFHO cause for CS voice connection (126)


Not used as IFHO cause for CS data connection (126)


Not used as IFHO cause for NRT PS data connection (126)


Not used as IFHO cause for RT PS data connection (126)





Mandatory On-line

Optional On-line

Optional On-line

Mandatory On-line



Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line


internal_value = gui_value * 2internal_value = gui_value * 2internal_value = gui_value * 2






internal_value = gui_value * 2internal_value = gui_valueinternal_value = (gui_value + 110)internal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = (gui_value - 1) / 2internal_value = (gui_value + 110)


Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line



Optional On-line

Optional On-line

Optional On-line

Optional On-line



internal_value = gui_valueinternal_value = gui_value * 2internal_value = gui_valueinternal_value = (gui_value + 24) * 2internal_value = (gui_value + 24.5) * 2internal_value = gui_value * 2internal_value = (gui_value + 116)internal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = (gui_value - 1) / 2


internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 2internal_value = gui_value / 2internal_value = gui_value / 2


Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line



Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line













internal_value = gui_valueinternal_value = (gui_value + 24) * 2internal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = (gui_value - 1) / 2


internal_value = gui_value * 10internal_value = gui_value * 2






IP Based Route identifier not defined (0)







Optional On-line

Optional On-line



Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line






Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line


WBTS object not assigned to the IPNB object (0)



NRI value not used. (1024)






No SIB1 updates are sent to UEs (4095)

internal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_value

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Optional On-line



Not defined. (255) Optional On-line

Optional On-line

Optional On-line

Not Defined (65535) Optional On-line


Optional On-line



Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line




Signalling point code is not used (0)


IP transport is not used (0)







Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line






Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Not defined value (65535)


Not defined value (65535)




No SIB1 updates are sent to UEs (4095)






Signalling point code is not used (0)


Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Optional On-line



Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line



Optional On-line

Mandatory On-line

Optional On-line

Optional On-line



Mandatory On-line


Mandatory On-line







HSUPA CC mechanism disabled. Internal information. (0)








Signaling Point Code of Neighbor RNC is not used (0)


Mandatory On-line




Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line




Blind HO is not done because of high RSCP (0)


Blind HO is not done because of low RSCP (-126)


Band capability is not used in layer selection. (0)


Load is not used in layer selection (0)


Preferred layer definitions are not used. (0)


RSCP is not used in layer selection. (0)







Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line


Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

















Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line


Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line
















Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line


Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line



If value is 0 it should be treated as not_defined. (0)


If value is 0 it should be treated as not_defined. (0)







Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line



Optional On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Recommended On-line

Mandatory On-line

Mandatory On-line



Optional On-line

Mandatory On-line

Optional On-line

Optional On-line

Mandatory On-line





internal_value = gui_valueinternal_value = gui_value * 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

Noise autotuning is not limited. (255)


internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value * 2internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line



Optional On-line

Optional On-line

Mandatory On-line

Optional On-line




internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value



Mandatory On-line

Optional On-line

Optional On-line

Mandatory On-line


Mandatory On-line

Mandatory On-line


Mandatory On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line


Mandatory On-line

Optional On-line

Optional On-line

Optional On-line



Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line


Cell_PCH/URA_PCH states not used (0)


internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 100internal_value = gui_value / 100internal_value = gui_value


internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

Mandatory On-line

Optional On-line


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Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

disabled (255) Optional On-line



internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value


Mandatory On-line

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Recommended On-line

Mandatory On-line

Recommended On-line

Recommended On-line

Recommended Requires object locking

Recommended On-line

Optional On-line

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Recommended On-line

Mandatory On-line

internal_value = gui_valueinternal_value = gui_value * 2

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Optional On-line

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Recommended On-line

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UEs with ARP 1 are ignored in weight calculation. (0)





internal_value = gui_valueinternal_value = gui_value / 10

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Optional On-line

Restriction is not set. (0) Optional On-line

Optional On-line


Minimum time needed by the system (0)


E-DCH MAC-d flow throughput meas is not active. (0)

internal_value = gui_value * 2internal_value = gui_value / 256internal_value = gui_value * 5internal_value = gui_value * 5internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value



Optional On-line

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Optional On-line


internal_value = gui_value * 2internal_value = gui_valueinternal_value = gui_value * 2



Minimum time needed by the system (0)


internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8

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Mandatory On-line

Mandatory On-line

Mandatory On-line

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Mandatory On-line

Optional On-line

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Optional On-line

Optional On-line

Optional On-line

Optional On-line

internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value


MAC-d flow throughput measurement is not activated (0)


The low throughput indication is not in use. (65535)

internal_value = gui_value / 256internal_value = gui_value * 5internal_value = gui_value * 5

Low utilisation indication is not in use. (65535)

internal_value = gui_value / 256internal_value = gui_value * 5internal_value = gui_value * 5

This parameter does not restrict maximum bit rate (0)

internal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10

Optional On-line

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Recommended On-line

Optional On-line

Optional On-line

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Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_value / 2internal_value = gui_value / 2internal_value = gui_value / 10

internal_value = gui_value / 8




internal_value = gui_value / 64internal_value = gui_value / 64internal_value = gui_value / 64

UP resource allocation retry timer is not in use (255)


B/G RAB is ignored in priority determination (0)


I/A THP1 RAB is ignored in priority determination (0)






B/G RAB is ignored in priority determination (0)






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Mandatory On-line

Optional On-line

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Optional On-line




Mandatory On-line

Mandatory On-line


Mandatory On-line

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Optional On-line

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Optional On-line




internal_value = (gui_value + 20)





Optional On-line

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Mandatory On-line

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Optional On-line

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Mandatory On-line



Mandatory On-line

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Mandatory On-line

internal_value = gui_value * 2internal_value = gui_value * 2internal_value = gui_value * 2internal_value = gui_value * 2internal_value = gui_value * 2






Mandatory On-line

Mandatory On-line

Mandatory On-line

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Optional On-line

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Mandatory On-line

Mandatory On-line

Mandatory On-line

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Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Mandatory On-line

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Mandatory On-line

Mandatory On-line

Mandatory On-line

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

internal_value = gui_valueinternal_value = gui_value * 2internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

Mandatory On-line

Optional On-line

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Optional On-line

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Optional On-line

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Optional On-line

Optional On-line

Optional On-line

Optional On-line


High throughput measurement is inactive (0)



Measurement switched off. (0)










internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value

Release throughput measurement is inactive (0)

internal_value = gui_value / 10internal_value = gui_value / 32internal_value = gui_value / 32internal_value = gui_value / 10







Optional On-line

Optional On-line

Optional On-line

Optional On-line

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Optional On-line

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Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Infinity (255) Mandatory On-line

infinity (255) Mandatory On-line







Mandatory On-line






internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_value * 10internal_value = gui_value * 10


internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value









Optional On-line

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Optional On-line


internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value


RT-over-NRT functionality is deactivated. (16)




Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

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Mandatory On-line

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Mandatory On-line

Optional On-line

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Optional On-line

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internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10

Optional On-line

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Optional On-line


internal_value = gui_value / 10internal_value = gui_value / 10

internal_value = gui_value / 5internal_value = gui_value / 5internal_value = gui_value / 5internal_value = gui_value / 5internal_value = gui_value / 5internal_value = gui_value / 5internal_value = gui_value / 5internal_value = gui_value / 5internal_value = gui_value / 5internal_value = gui_value / 5internal_value = gui_value / 5

internal_value = gui_value * 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value


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internal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

internal_value = gui_value * 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

Optional On-line

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internal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10

Optional On-line

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Optional On-line


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internal_value = gui_value * 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value


Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

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Optional On-line

Optional On-line

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Optional On-line

Optional On-line

Optional On-line

Optional On-line

internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8internal_value = gui_value / 8

internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10internal_value = gui_value / 10


internal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_value

Optional On-line


Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line



Mandatory On-line

Optional On-line

Optional On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line


RLC PDU size 656 bits is not in use (65535)


SIR threshold is not used for PDU size selection (32767)




internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100

internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100


Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Optional On-line

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Optional On-line

Optional On-line

Optional On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

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Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line


internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100


internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100


Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Recommended On-line

Optional On-line

Optional On-line

Recommended On-line

Recommended On-line

Recommended On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100


No GTP tunnel release and alarm is not raised. (0)


Optional On-line

Recommended On-line



Mandatory On-line

Optional On-line

Recommended On-line

Recommended On-line

Recommended On-line

Optional On-line

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Mandatory On-line

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internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100

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Optional On-line

internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100internal_value = gui_value * 100

Optional On-line

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internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

Optional On-line

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Optional On-line

Not Defined (65535) Mandatory On-line

Not Defined (65535) Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value


internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value * 2internal_value = gui_value * 2internal_value = gui_value * 2

Optional On-line



Recommended On-line

Recommended On-line

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Mandatory On-line

Mandatory On-line





Optional On-line

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internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = (gui_value + 32) * 4

Mandatory On-line






Optional On-line



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Mandatory On-line

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Mandatory On-line

Mandatory On-line

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Mandatory On-line

Mandatory On-line


Optional On-line

Not Defined (65535) Value set by the system Not modifiable

Optional On-line

Optional On-line



Optional On-line

Optional On-line

Optional On-line






Optional On-line

Optional On-line

Optional On-line

Not Defined (0) Optional Requires object locking

Optional On-line



Recommended On-line

Optional On-line

Optional On-line

Optional On-line

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Optional On-line

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No effect for measurement averaging in RNC. (0)

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value * 2internal_value = gui_value * 2internal_value = gui_value * 2








Optional On-line




Optional On-line

Optional On-line

Optional On-line

Optional On-line



Mandatory On-line


Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

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Mandatory On-line

Optional On-line

Recommended On-line

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Recommended On-line

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Optional On-line

IP Based route is not defined (0)


IP Based route is not defined (0)


IPNB object is not connected to the WBTS (0)


Preventing overload control not done based on ATM (0)


Preventing overload control not done based on IP (0)


Preventing overload control not done based on CID (0)


internal_value = gui_value / 100internal_value = gui_value

Number of E-DCH allocations is not restricted. (0)





No effect for measurement averaging in RNC. (0)



Optional On-line

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Optional On-line

Optional On-line

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Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

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Optional On-line


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Optional On-line


Optional On-line











Mandatory On-line



internal_value = gui_value * 10000internal_value = gui_value * 10000internal_value = gui_value * 100internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value * 100internal_value = gui_value * 10internal_value = gui_valueinternal_value = gui_value



internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

Mandatory On-line

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Mandatory On-line

Optional On-line


Optional On-line

Optional On-line

Optional On-line

Optional On-line





Optional On-line

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Optional On-line

Optional On-line

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Mandatory On-line


off (156) Optional On-line





off (-40) Optional On-line









TQM object is not connected to the WBTS (0)





internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 100internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 100internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value





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Optional On-line

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internal_value = gui_value / 100internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value

internal_value = gui_value * 2internal_value = gui_value


internal_value = gui_value * 2internal_value = gui_valueinternal_value = gui_value * 10

The cell is not connected to any CMOB. (0)

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value * 10

For NB/RSxxx, which does not support CellRange. (0)



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internal_value = gui_valueinternal_value = gui_value * 2internal_value = gui_value

internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 5internal_value = gui_value * 5internal_value = gui_value * 5internal_value = gui_value * 5


internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10internal_value = gui_value / 10

Optional On-line

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F-DPCH code change is not performed. (0)



HSPA Capability Based Handover is disabled. (0)



MPO is defined by the RNC internal algorithm (100)


Activity measurement is not active (0)

internal_value = gui_value * 5internal_value = gui_value / 8000


HSPA load state not set due to low HSDPA bit rate (127)


HSPA load state not set due to low E-DCH bit rate (127)


Optional On-line


Optional On-line




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Optional On-line

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Optional On-line

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Mandatory On-line

Optional On-line

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HSPA load state not set due to HSUPA resource (2)






internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

Optional On-line

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Optional On-line


Mandatory On-line


Optional On-line

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Mandatory On-line

Mandatory On-line

Mandatory On-line



Inter-frequency LHO is not active in this cell. (0)


The inter-RAT LHO is not active in this cell. (0)

internal_value = gui_valueinternal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value



Optional On-line


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Mandatory On-line

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Mandatory On-line


Number of HSDPA users is not restricted. (0)




Number of E-DCH allocations is not restricted (0)




Number of HS-DSCH MAC-d flows is not restricted. (0)





Optional On-line

Optional On-line

Mandatory On-line

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Optional On-line


Enhanced overload control is not active. (60)



No reference to PFL object (0)




internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

The cell does not belong to any PWSM cell group. (0)

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value

Optional On-line

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Mandatory On-line



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Optional On-line

Optional On-line


The cell is a remaining cell in PWSM. (0)



internal_value = gui_value * 4internal_value = gui_value * 4internal_value = gui_value * 4internal_value = gui_value

internal_value = gui_valueinternal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10



Use of dynamic UL target power is disabled. (65535)

internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value / 10internal_value = gui_valueinternal_value = gui_value * 10internal_value = gui_value * 10


Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Optional On-line

Not defined (65535) Optional Requires object locking

Optional On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line


Optional On-line

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Mandatory On-line

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Optional On-line

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Mandatory On-line

Mandatory On-line


internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = (gui_value + 32) * 4internal_value = gui_value * 10

internal_value = gui_value * 10internal_value = (gui_value + 32) * 4internal_value = (gui_value + 32) * 4internal_value = (gui_value + 32) * 4internal_value = (gui_value + 32) * 4internal_value = (gui_value + 32) * 4internal_value = gui_value * 4internal_value = gui_value * 4internal_value = gui_value * 2internal_value = gui_value * 10internal_value = (gui_value + 32) * 4internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

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Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

PtxTarget is used as target for NRT DCH scheduling (0)

internal_value = gui_valueinternal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10

Use of dynamic DL target power is disabled (32767)


Value of PtxTarget is used (32767)

internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value / 10internal_value = (gui_value + 24) * 2internal_value = gui_value / 2internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 2internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = (gui_value - 1) / 2internal_value = gui_value

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 10




Optional On-line

Optional On-line





Mandatory On-line

Mandatory On-line

Optional On-line

Mandatory On-line

Optional On-line



Mandatory On-line

Mandatory On-line


Optional On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line


Optional On-line

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Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Optional On-line




The value must be checked before activating SAB. (0)

internal_value = gui_valueinternal_value = (gui_value - 1) / 2internal_value = (gui_value - 1) / 2



Inter-frequency SHO is not active in this cell. (0)


The inter-RAT SHO is not active in this cell. (0)

internal_value = gui_valueinternal_value = gui_valueinternal_value = gui_valueinternal_value = gui_value / 2

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line



Optional On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

internal_value = gui_value / 2internal_value = gui_value / 2internal_value = gui_value / 2internal_value = gui_value / 2internal_value = gui_value / 2internal_value = gui_value * 10internal_value = gui_value / 2internal_value = gui_valueinternal_value = (gui_value - 1) / 2internal_value = (gui_value - 1) / 2internal_value = gui_value / 2internal_value = gui_value / 2






Optional On-line


Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line


Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line


Mandatory On-line

Optional On-line




Optional On-line


Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line


UL loaded state for HSPA users deactivated (127)


User amount is not checked. (0)


No defined value (65535)


No defined value (65535)





Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line


Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line


Mandatory On-line


Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line












internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 100internal_value = gui_valueinternal_value = gui_value






















Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line







internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10















Optional On-line

Optional On-line





















internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10internal_value = gui_value * 10






Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Mandatory On-line

Optional On-line


Mandatory On-line


Optional On-line

Mandatory On-line

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Optional On-line

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Optional On-line

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Optional On-line

Optional On-line

Recommended On-line

Recommended On-line

Optional On-line

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Optional On-line








Recommended On-line

Mandatory On-line

Mandatory On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line

Optional On-line






Related features

Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional) AND HSDPA (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional) AND HSDPA (optional)Soft Handover Based on Detected Set Reporting (optional)Soft Handover Based on Detected Set Reporting (optional)

WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) AND UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking

( WCDMA - GSM Inter-system Handover (optional) AND Extension of sib11 WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking WCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking

Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)

HSDPA inter-frequency handover (optional)

Extension of sib11 (standard)

WCDMA 1900 (optional) OR WCDMA 850 (optional) OR WCDMA 1700 & 1800 (optional) Multi-Band Load Balancing (optional)

LTE Interworking-Cell Reselection to LTE (optional)LTE Interworking-Cell Reselection to LTE (optional)LTE Interworking-Cell Reselection to LTE (optional)LTE Interworking-Cell Reselection to LTE (optional)

HSDPA (optional)

LTE Interworking-Cell Reselection to LTE (optional)

Extension of sib11 (standard)

HSDPA (optional) AND HSDPA with Simultaneous AMR Voice Call (optional)

Service Area Broadcast (optional)Service Area Broadcast (optional)Service Area Broadcast (optional)

Service Area Broadcast (optional)Radio Network Access Regulation Function (optional)Radio Network Access Regulation Function (optional)

Radio Network Access Regulation Function (optional)Radio Network Access Regulation Function (optional)Radio Network Access Regulation Function (optional)Radio Network Access Regulation Function (optional)Radio Network Access Regulation Function (optional)

BTS AAL2 Multiplexing Function (standard)

Path Selection (optional)HSDPA (optional) AND Path Selection (optional)HSUPA (optional) AND Path Selection (optional)Path Selection (optional) AND Dynamic Scheduling for NRT DCH with Path Selection Path Selection (optional)Path Selection (optional)

HSPA Transport Fallback (optional)

Path Selection (optional) OR HSUPA Basic RRM (optional)

Flexible connection of VPCs for WBTS object in RNC (optional)

Path Selection (optional) OR HSUPA (optional) OR HSDPA (optional)

HSDPA with QPSK and 5 Codes (optional) AND ( Dynamic Scheduling for HSDPA with Path

Flexible connection of VPCs for WBTS object in RNC (optional)Flexible connection of VPCs for WBTS object in RNC (optional)

3GPP Iub (standard) AND BTS AAL2 Multiplexing Function (standard)

HSDPA (optional)

Flexible connection of VPCs for WBTS object in RNC (optional)Flexible connection of VPCs for WBTS object in RNC (optional)Dynamic Scheduling for NRT DCH with Path Selection (optional)

Basic HSDPA with QPSK and 5 codes (optional) AND ( Dynamic Scheduling HSDPA (optional) AND ( Dynamic Scheduling for NRT DCH with Path Selection (optional) OR Basic HSDPA with QPSK and 5 codes (optional) AND ( Dynamic Scheduling HSDPA (optional) AND ( Dynamic Scheduling for NRT DCH with Path Selection (optional) OR Flexible connection of VPCs for WBTS object in RNC (optional)

Flexible connection of VPCs for WBTS object in RNC (optional)Flexible connection of VPCs for WBTS object in RNC (optional)



Directed Retry of AMR call Intersystem Handover (optional) AND Inter-system Inter-system Handover Cancellation (standard)

WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional) AND Load and Service Based Inter-WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional) AND IMSI Based Handover Inter-system Handover Cancellation (standard)Inter-system Handover Cancellation (standard)Inter-system Handover Cancellation (standard)Inter-system Handover Cancellation (standard)WCDMA - GSM Inter-system Handover (optional)

IMSI Based Handover (optional)

Load and Service Based Inter-System/Inter-Frequency Handover (optional)

Multi-Band Load Balancing (optional) AND HSDPA inter-frequency handover Multi-Band Load Balancing (optional) AND HSDPA inter-frequency handover

Soft Handover Based on Detected Set Reporting (optional) OR Detected Set Reporting and

HSUPA (optional) AND HSUPA Handovers (optional)HSUPA (optional) AND HSUPA Handovers (optional)


WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional) AND Load and Service Based Inter-WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional) AND ( Load and Service Based Inter-WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional) AND Load and Service Based Inter-WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)

WCDMA - GSM Inter-system Handover (optional)

Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR HSDPA Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR HSDPA Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR HSDPA

HSDPA inter-frequency handover (optional) AND Dual-Cell HSDPA 42Mbps (optional)HSDPA inter-frequency handover (optional)HSDPA inter-frequency handover (optional) AND MIMO (optional)


Multi-Band Load Balancing (optional)

LTE Interworking-Cell Reselection to LTE (optional)LTE Interworking-Cell Reselection to LTE (optional)LTE Interworking-Cell Reselection to LTE (optional)LTE Interworking-Cell Reselection to LTE (optional)LTE Interworking-Cell Reselection to LTE (optional)LTE Interworking-Cell Reselection to LTE (optional)

HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND HSDPA HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND HSDPA

IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)

IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)3GPP Iub (standard) AND IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)

IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)

Flexible Iu (optional)

IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)IP based Iu-PS (optional) OR IP based Iu-CS (optional)IP based Iu-PS (optional) OR IP based Iu-CS (optional)IP based Iu-CS (optional) OR IP based Iu-PS (optional)IP based Iu-PS (optional) OR IP based Iu-CS (optional)IP based Iu-PS (optional) OR IP based Iu-CS (optional)IP based Iu-PS (optional) OR IP based Iu-CS (optional)IP based Iu-PS (optional) OR IP based Iu-CS (optional)IP based Iu-PS (optional) OR IP based Iu-CS (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND HSDPA

Flexible Iu (optional) OR Multi-Operator Core Network (optional)Flexible Iu (optional) OR Multi-Operator Core Network (optional)Flexible Iu (optional) OR Multi-Operator Core Network (optional)

RNC license control for Iu link break protection (optional)RNC license control for Iu link break protection (optional)

IP based Iu-CS (optional)

IP based Iu-CS (optional)

IP based Iu-CS (optional)IP based Iu-CS (optional)IP based Iu-CS (optional)IP based Iu-CS (optional)

Inter Circle Roaming (optional)Inter Circle Roaming (optional)Inter Circle Roaming (optional)Inter Circle Roaming (optional)Inter Circle Roaming (optional)Inter Circle Roaming (optional)

Multioperator RAN (optional) OR Flexible Iu (optional) OR Multi-Operator Core Network Multioperator RAN (optional) OR Flexible Iu (optional) OR Multi-Operator Core Network Multioperator RAN (optional) OR Flexible Iu (optional) OR Multi-Operator Core Network Multioperator RAN (optional) OR Flexible Iu (optional) OR Multi-Operator Core Network Multi-Operator Core Network (optional)Multioperator RAN (optional) OR Flexible Iu (optional) OR Multi-Operator Core Network Multioperator RAN (optional) OR Flexible Iu (optional) OR Multi-Operator Core Network Multioperator RAN (optional) OR Flexible Iu (optional) OR Multi-Operator Core Network

Flexible Iu (optional)

Multioperator RAN (optional) OR Flexible Iu (optional) OR Multi-Operator Core Network IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)

RNC license control for Iu link break protection (optional)RNC license control for Iu link break protection (optional)

Flexible Iu (optional) OR Multi-Operator Core Network (optional)Flexible Iu (optional) OR Multi-Operator Core Network (optional)Flexible Iu (optional) OR Multi-Operator Core Network (optional)

IP Based Iur (optional)


I-BTS Sharing (optional)



IP based Iu-PS (optional)

IP based Iu-PS (optional)

HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND HSDPA

IP Based Iur (optional) AND HSPA Inter-RNC Cell Change (optional)

HSUPA (optional) AND HSPA Inter-RNC Cell Change (optional)HSUPA (optional) AND HSPA Inter-RNC Cell Change (optional)HSUPA (optional) AND HSPA Inter-RNC Cell Change (optional)HSPA Inter-RNC Cell Change (optional) AND HSDPA Congestion Control (optional)IP Based Iur (optional) AND HSPA Inter-RNC Cell Change (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND HSDPA IP Based Iur (optional) AND HSPA Inter-RNC Cell Change (optional)

HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND HSDPA



Transport Bearer Tuning (optional)HSUPA (optional) AND HSPA Inter-RNC Cell Change (optional)

HSPA Inter-RNC Cell Change (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)

Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)

Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)BTS Auto Connection (optional)BTS Auto Connection (optional)BTS Auto Connection (optional)BTS Auto Connection (optional)BTS Auto Connection (optional)BTS Auto Connection (optional)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Power Balancing (optional)Power Balancing (optional)

HSUPA (optional) AND HSUPA Basic RRM (optional)Continuous Packet Connectivity (optional)

HSUPA (optional) AND HSUPA Basic RRM (optional)

HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS

High speed Cell_FACH DL (optional)High speed Cell_FACH DL (optional)

Inter Circle Roaming (optional)AMR Codec Sets (12.2, 7.95, 5.90, 4.75) and (5.90, 4.75) (optional) AND Load Based AMR Power Balancing (optional)

Power Balancing (optional)

Fast L1 Syncronisation (standard)

Support for Tandem and Transcoder Free Operarations (TFO & TrFO) (optional)Power Balancing (optional)

Fast L1 Syncronisation (standard)

HSUPA (optional) AND HSUPA Basic RRM (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)


Multi-Operator Core Network (optional)Multi-Operator Core Network (optional)Multi-Operator Core Network (optional)Automatic OMS resiliency (standard)Basic functions (standard) OR Radio Connection Performance Emergency Call Redirect to GSM (optional)

LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)

Replacing EMT with BTSOM in RNC (standard), Replacing EMT with BTSOM in Replacing EMT with BTSOM in RNC (standard), Replacing EMT with BTSOM in Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)

New WBTS Parameters in Topology Data for Flexi/Ultra/MetroSite BTSs (standard)

Radio Network Access Regulation Function (optional)

Broadcast of A-GPS Assistance Data (optional)


Cell Selection Parameter Set (standard)

Automatic OMS resiliency (standard)Automatic OMS resiliency (standard)Automatic OMS resiliency (standard)

LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) Position Information in Subscriber Trace Report (optional) AND LCS - Cell Coverage Based



Basic functions (standard) OR Radio Connection Performance

HSUPA (optional) AND HSUPA with Simultaneous AMR Voice Call (optional)HSDPA (optional) AND HSDPA with Simultaneous AMR Voice Call (optional)

Compressed mode (standard)

RNC2600 Capacity Increase for Smartphones (optional)

Dynamic Link Optimisation for NRT Traffic Coverage (standard)Flexible Upgrade of NRT DCH Data Rate (optional) OR Throughput based LTE Interworking-Cell Reselection to LTE (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) Emergency Call Redirect to GSM (optional)HSDPA (optional) AND HSUPA Basic RRM (optional) AND HSDPA Dynamic Resource Flexible Upgrade of NRT DCH Data Rate (optional)Compressed mode (standard)HSDPA (optional) AND HSDPA Associated Uplink DPCH Scheduling (optional) HSDPA 48 Users per Cell (optional)HSDPA Dynamic Resource Allocation (optional)HSDPA (optional) AND HSDPA Serving Cell Change (optional) AND HSDPA Soft/softer HSDPA (optional) AND HSDPA Serving Cell Change (optional) AND HSDPA Soft/softer HSPA Inter-RNC Cell Change (optional) AND HSDPA Serving Cell Change (optional) AND Inter-system Handover Cancellation (standard)

Intelligent Directed Emergency Call Inter-System Handover (optional) AND LCS -

Multi-Operator Core Network (optional)Multi-Operator Core Network (optional)Enhanced Priority Based Scheduling and Overload Control for NRT Traffic (optional)Throughput based optimization of the PS algorithm (optional)Power Saving Mode for BTS (optional)Fast L1 Syncronisation (standard)Power Balancing (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional)

Common Channel Setup (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)WCDMA - GSM Inter-system Handover (optional) AND Wireless Priority Service WCDMA - GSM Inter-system Handover (optional) AND Wireless Priority Service HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS

Fractional DPCH (optional)Continuous Packet Connectivity (optional)

Continuous Packet Connectivity (optional)



HSDPA (optional) AND HSUPA (optional) AND Fractional DPCH (optional)HSDPA (optional) AND HSUPA (optional) AND HSUPA 2 ms TTI (optional)HSDPA (optional) AND HSUPA (optional) AND HSUPA 2 ms TTI (optional)HSUPA (optional) AND HSDPA (optional) AND Fractional DPCH (optional)Dual-Cell HSDPA 42Mbps (optional) AND MIMO (optional)CS Voice Over HSPA (optional)HSUPA (optional) AND HSUPA Handovers (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA Fractional DPCH (optional)HSDPA (optional) AND HSUPA (optional) AND HSUPA 2 ms TTI (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)Continuous Packet Connectivity (optional)Continuous Packet Connectivity (optional)HSDPA (optional) AND HSUPA (optional) AND Fractional DPCH (optional)HSDPA (optional) AND HSUPA (optional) AND Fractional DPCH (optional)Fractional DPCH (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND HSUPA HSUPA (optional) AND HSUPA Basic RRM (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND HSUPA

HSDPA (optional)

HSDPA (optional)

HSDPA (optional)

HSDPA (optional)

HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND HSUPA HSDPA (optional) AND HSDPA Serving Cell Change (optional)HSDPA (optional) AND HSDPA Serving Cell Change (optional)

HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS HSDPA (optional) AND HSDPA Serving Cell Change (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS HSDPA (optional) AND HSDPA Associated Uplink DPCH Scheduling (optional) HSDPA (optional) AND HSDPA Resource Allocation (optional)

Fractional DPCH (optional)HSDPA (optional) AND HSDPA Associated Uplink DPCH Scheduling (optional) HSDPA (optional) AND HSDPA Associated Uplink DPCH Scheduling (optional) HSDPA (optional) AND HSDPA Channel Switching (optional)HSDPA (optional) AND HSDPA Channel Switching (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS

HSDPA (optional)

HSDPA 10 Codes (optional) OR HSDPA 15 Codes (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)HSDPA (optional) AND HSDPA Channel Switching (optional)Continuous Packet Connectivity (optional)Continuous Packet Connectivity (optional)Continuous Packet Connectivity (optional)Continuous Packet Connectivity (optional)Continuous Packet Connectivity (optional)Continuous Packet Connectivity (optional)HSDPA (optional) AND HSDPA Channel Switching (optional)HSDPA (optional) AND HSDPA Channel Switching (optional)HSDPA (optional) AND HSDPA Channel Switching (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS HSDPA (optional) AND HSDPA Channel Switching (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS HSDPA (optional) AND HSDPA Channel Switching (optional)

CS Voice Over HSPA (optional)CS Voice Over HSPA (optional)CS Voice Over HSPA (optional)

HSUPA (optional)

CS Voice Over HSPA (optional)CS Voice Over HSPA (optional)

HSUPA (optional) AND HSUPA 2 ms TTI (optional)HSUPA 2 ms TTI (optional) AND HSUPA 5.8 Mbps (optional) AND HSUPA 16QAM HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS CS Voice Over HSPA (optional)CS Voice Over HSPA (optional)HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA HSUPA (optional) AND HSUPA Basic RRM (optional)CS Voice Over HSPA (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)

CS Voice Over HSPA (optional)High speed Cell_FACH DL (optional)HSDPA inter-frequency handover (optional) AND HSDPA (optional) AND HSDPA Serving Cell HSDPA inter-frequency handover (optional) AND HSDPA (optional) AND HSDPA Serving Cell HSUPA (optional) AND HSUPA Basic RRM (optional)

HSDPA (optional) AND HSUPA (optional) AND HSUPA 5.8 Mbps (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) OR HSDPA

HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) OR HSDPA

Inter-frequency Handover over Iur (optional)Inter-frequency Handover over Iur (optional)Inter-frequency Handover over Iur (optional)Inter-frequency Handover over Iur (optional)

HSDPA (optional) AND Directed RRC Connection Setup for HSDPA Layer (optional) IMSI Based Handover (optional)HSDPA (optional) AND Directed RRC Connection Setup for HSDPA Layer (optional) HSDPA (optional) AND Directed RRC Connection Setup for HSDPA Layer (optional) Automatic Definition of Neighbouring Cells (optional)

UTRAN-GAN Interworking (optional)UTRAN-GAN Interworking (optional)UTRAN-GAN Interworking (optional)Compressed mode (standard)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)WCDMA - GSM Inter-system Handover (optional)HSDPA inter-frequency handover (optional)HSDPA (optional) AND HSDPA Serving Cell Change (optional)HSDPA (optional) AND HSDPA Serving Cell Change (optional)HSDPA (optional) AND HSDPA Serving Cell Change (optional)HSDPA (optional) AND Directed RRC Connection Setup for HSDPA Layer (optional) HSDPA (optional) AND HSDPA Serving Cell Change (optional)HSDPA (optional) AND HSDPA Serving Cell Change (optional)HSDPA (optional) AND HSDPA Serving Cell Change (optional)


HSDPA (optional) AND HSDPA Serving Cell Change (optional) OR HSDPA (optional) AND HSDPA (optional) AND HSDPA Serving Cell Change (optional)HSDPA (optional) AND HSDPA Serving Cell Change (optional) OR HSDPA (optional) AND HSDPA (optional) AND HSDPA Serving Cell Change (optional) AND HSDPA Soft/softer HSDPA (optional) AND HSDPA Serving Cell Change (optional) AND HSDPA Soft/softer Load and Service Based Inter-System/Inter-Frequency Handover (optional)Multi-Band Load Balancing (optional) AND HSDPA inter-frequency handover Inter-system Handover Cancellation (standard)WCDMA - GSM Inter-system Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Multi-Band Load Balancing (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)


Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)

Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)HSDPA Layering for UEs in Common Channels (optional)HSDPA (optional) AND HSDPA Layering for UEs in Common Channels (optional)Compressed mode (standard) AND WCDMA - GSM Inter-system Handover Compressed mode (standard)Compressed mode (standard) AND WCDMA - GSM Inter-system Handover Compressed mode (standard)Compressed mode (standard) AND WCDMA - GSM Inter-system Handover Compressed mode (standard)Compressed mode (standard) AND WCDMA - GSM Inter-system Handover Compressed mode (standard)Compressed mode (standard) AND WCDMA - GSM Inter-system Handover Compressed mode (standard)

Basic functions (standard) OR Radio Connection Performance HSDPA (optional) AND HSUPA (optional) AND HSUPA 2 ms TTI (optional)

Throughput based optimization of the PS algorithm (optional)Flexible Upgrade of NRT DCH Data Rate (optional)Flexible Upgrade of NRT DCH Data Rate (optional)Flexible Upgrade of NRT DCH Data Rate (optional)Throughput based optimization of the PS algorithm (optional)

Throughput based optimization of the PS algorithm (optional)


Throughput based optimization of the PS algorithm (optional)Throughput based optimization of the PS algorithm (optional)

Throughput based optimization of the PS algorithm (optional)Throughput based optimization of the PS algorithm (optional)



Dynamic Link Optimisation for NRT Traffic Coverage (standard)Dynamic Link Optimisation for NRT Traffic Coverage (standard)Enhanced Priority Based Scheduling and Overload Control for NRT Traffic (optional)High speed Cell_FACH DL (optional)High speed Cell_FACH DL (optional)Inter Circle Roaming (optional)


High speed Cell_FACH DL (optional)

Fractional DPCH (optional) OR HSUPA 2 ms TTI (optional) OR High speed Cell_FACH

Flexible Upgrade of NRT DCH Data Rate (optional)

Flexible Upgrade of NRT DCH Data Rate (optional)

Continuous Packet Connectivity (optional) AND ( HSPA 72 Users Per Cell (optional) OR HSDPA (optional) AND HSPA Multi NRT RABs (optional) OR HSDPA (optional) AND HSDPA HSDPA (optional) AND HSPA Multi NRT RABs (optional)High speed Cell_FACH DL (optional)

HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA

HSDPA (optional)


HSDPA (optional)

HSDPA (optional) AND HSUPA (optional) AND HSUPA 2 ms TTI (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)

Fractional DPCH (optional)

HSDPA 10 Codes (optional) OR HSDPA 15 Codes (optional)HSDPA 10 Codes (optional) OR HSDPA 15 Codes (optional)HSDPA 10 Codes (optional) OR HSDPA 15 Codes (optional)

CS Voice Over HSPA (optional)

Transport Bearer Tuning (optional)




Transport Bearer Tuning (optional) AND Streaming QoS for HSPA (optional)



HSDPA (optional)

HSDPA (optional)

HSDPA (optional)

HSDPA (optional)


Dynamic Scheduling for NRT DCH with Path Selection (optional)

Path Selection (optional)Path Selection (optional)Path Selection (optional)Dynamic Scheduling for NRT DCH with Path Selection (optional) OR ( Transport Bearer Tuning Dynamic Scheduling for NRT DCH with Path Selection (optional) OR ( Transport Bearer Tuning

Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)

Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)

HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)HSPA Transport Fallback (optional) AND Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)

Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional) AND IP Based Iub for Flexi WCDMA BTS (optional)Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional)




Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND ( IP Based Iub for Flexi WCDMA BTS (optional) Iub Transport QoS (optional) AND IP Based Iub for Flexi WCDMA BTS (optional)Iub Transport QoS (optional) AND IP Based Iub for Flexi WCDMA BTS (optional)Iub Transport QoS (optional)Iub Transport QoS (optional)

3GPP Iub (standard) AND I-BTS Sharing (optional)3GPP Iub (standard) AND I-BTS Sharing (optional)3GPP Iub (standard) AND I-BTS Sharing (optional)HSDPA (optional) AND HSUPA (optional) AND HSDPA Dynamic Resource Allocation 3GPP Iub (standard) AND I-BTS Sharing (optional)











PS RAB Reconfiguration (optional) AND HSPA Inter-RNC Cell Change (optional)I-BTS Sharing (optional) OR HSPA Inter-RNC Cell Change (optional)I-BTS Sharing (optional) OR HSPA Inter-RNC Cell Change (optional)AMR Codec Sets (12.2, 7.95, 5.90, 4.75) and (5.90, 4.75) (optional) AND I-BTS Sharing Wideband AMR Codec Set (12.65, 8.85, 6.6) (optional) AND I-BTS Sharing (optional)HSDPA (optional) AND HSUPA (optional) AND HSPA Inter-RNC Cell Change (optional)C-Iub: Changes to Eb/N0 Parameterization (standard) AND ( I-BTS Sharing (optional) OR

HSDPA (optional) AND HSPA Inter-RNC Cell Change (optional) AND WCDMA - GSM Inter-HSDPA (optional) AND HSPA Inter-RNC Cell Change (optional)HSDPA (optional) AND HSPA Inter-RNC Cell Change (optional)HSDPA (optional) AND HSPA Inter-RNC Cell Change (optional)HSDPA (optional) AND HSPA Inter-RNC Cell Change (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND HSDPA HSDPA (optional) AND HSUPA (optional) AND HSPA Inter-RNC Cell Change (optional)HSDPA (optional) AND HSUPA (optional) AND HSDPA Dynamic Resource Allocation

I-BTS Sharing (optional) OR HSPA Inter-RNC Cell Change (optional)

HSDPA (optional) AND HSUPA (optional) AND HSPA Inter-RNC Cell Change (optional)

WCDMA - GSM Inter-system Handover (optional) AND I-BTS Sharing (optional)I-BTS Sharing (optional) OR HSPA Inter-RNC Cell Change (optional)WCDMA - GSM Inter-system Handover (optional) AND I-BTS Sharing (optional)I-BTS Sharing (optional) OR HSPA Inter-RNC Cell Change (optional)HSPA Inter-RNC Cell Change (optional)





3GPP Iub (standard)

I-BTS Sharing (optional) OR HSPA Inter-RNC Cell Change (optional)HSDPA (optional) AND HSPA Inter-RNC Cell Change (optional) AND WCDMA - GSM Inter-HSUPA (optional) AND HSUPA with Simultaneous AMR Voice Call (optional) HSDPA (optional) AND HSDPA with Simultaneous AMR Voice Call (optional) HSDPA (optional) AND HSDPA with Simultaneous AMR Voice Call (optional) HSDPA (optional) AND HSDPA with Simultaneous AMR Voice Call (optional) WCDMA - GSM Inter-system Handover (optional) AND I-BTS Sharing (optional)I-BTS Sharing (optional) OR HSPA Inter-RNC Cell Change (optional)WCDMA - GSM Inter-system Handover (optional) AND I-BTS Sharing (optional)I-BTS Sharing (optional) OR HSPA Inter-RNC Cell Change (optional)

I-BTS Sharing (optional) OR HSPA Inter-RNC Cell Change (optional)I-BTS Sharing (optional) OR HSPA Inter-RNC Cell Change (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)


HSPA Transport Fallback (optional)Nokia Integrated O&M for Andrew 3G Pico BTS (optional), New WBTS Parameters in Topology HSDPA inter-frequency handover (optional) AND HSDPA (optional) AND HSDPA Serving Cell Multi-Band Load Balancing (optional)

3GPP Iub (standard)

3GPP Iub (standard)

3GPP Iub (standard)

3GPP Iub (standard)

LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)

Flexible Upgrade of NRT DCH Data Rate (optional)IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional) OR Dual Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional) OR Dual Iub for Flexi WCDMA BTS (optional)( IP Based Iub for Flexi WCDMA BTS (optional) OR Dual Iub for Flexi WCDMA BTS

HSUPA (optional) AND HSUPA Congestion Control (standard)HSUPA (optional) AND HSUPA 2 ms TTI (optional)HSUPA (optional) AND HSUPA Congestion Control (standard)HSUPA (optional) AND HSUPA 2 ms TTI (optional)HSUPA (optional) AND HSUPA Congestion Control (standard)HSUPA (optional) AND HSUPA 2 ms TTI (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)HSDPA 14 Mbps per User (optional)HSDPA (optional) AND HSDPA Congestion Control (optional)Inter Circle Roaming (optional)Inter Circle Roaming (optional)Inter Circle Roaming (optional)Inter Circle Roaming (optional)IP Based Iub for Flexi WCDMA BTS (optional) OR Dual Iub for Flexi WCDMA BTS (optional)Inter Circle Roaming (optional)Inter Circle Roaming (optional)IP Based Iub for Flexi WCDMA BTS (optional) OR Dual Iub for Flexi WCDMA BTS (optional)

Satellite Iub (optional)

3GPP Iub (standard)

3GPP Iub (standard)

3GPP Iub (standard)

( HSUPA Basic 3 users per BTS (optional) OR HSUPA Basic 12 users per BTS (optional) OR Inter Circle Roaming (optional)Dual Iub for Flexi WCDMA BTS (optional) OR IP Based Iub for Flexi WCDMA BTS Dual Iub for Flexi WCDMA BTS (optional) OR IP Based Iub for Flexi WCDMA BTS IP Based Iub for Flexi WCDMA BTS (optional)Continuous Packet Connectivity (optional)Continuous Packet Connectivity (optional)Continuous Packet Connectivity (optional)

HSPA Transport Fallback (optional)Dual Iub for Flexi WCDMA BTS (optional) OR IP Based Iub for Flexi WCDMA BTS

( HSUPA (optional) AND HSUPA Basic RRM (optional) )

Dual Iub for Flexi WCDMA BTS (optional) OR IP Based Iub for Flexi WCDMA BTS Basic functions (standard)Nokia Integrated O&M for Andrew 3G Pico BTS (optional), New WBTS Parameters in Topology HSDPA (optional) AND HSDPA Transport with Best Effort AAL2 QoS (optional)PS RAB Reconfiguration (optional)Transport Bearer Tuning (optional)HSDPA 10 Codes (optional) OR HSDPA 15 Codes (optional)

Flexible Upgrade of NRT DCH Data Rate (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)

Satellite Iub (optional)

Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)HSUPA (optional) AND HSUPA Congestion Control (standard)HSUPA (optional) AND HSUPA 2 ms TTI (optional)


Inter Circle Roaming (optional)Inter Circle Roaming (optional)Inter Circle Roaming (optional)

RF Sharing WCDMA-GSM (standard) OR RF Sharing WCDMA-LTE (standard)

HSDPA (optional) AND HSDPA Transport with Best Effort AAL2 QoS (optional)

HSDPA (optional) AND HSDPA Transport with Best Effort AAL2 QoS (optional)HSDPA (optional) AND HSDPA Transport with Best Effort AAL2 QoS (optional)Iub Transport QoS (optional)

IP Based Iub for Flexi WCDMA BTS (optional) OR Dual Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional) OR Dual Iub for Flexi WCDMA BTS (optional)IP Based Iub for Flexi WCDMA BTS (optional)

HSDPA (optional) AND HSDPA Resource Allocation (optional) OR HSDPA (optional) AND HSUPA (optional) AND HSUPA Basic RRM (optional)Basic functions (standard) OR Radio Network Access Regulation Function Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)

Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)Load Based AMR Codec Mode Selection (standard)LTE Interworking-Cell Reselection to LTE (optional)

HSUPA Interference Cancellation Receiver (optional)BTS AAL2 Multiplexing Function (standard)

Compressed mode (standard)HSUPA Interference Cancellation Receiver (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Common Channel Setup (optional)HSDPA (optional) AND HSUPA (optional) AND Fractional DPCH (optional)Continuous Packet Connectivity (optional)Basic functions (standard)

AMR Codec Sets (12.2, 7.95, 5.90, 4.75) and (5.90, 4.75) (optional)Wideband AMR Codec Set (12.65, 8.85, 6.6) (optional)Radio Network Access Regulation Function (optional)Service Area Broadcast (optional)

Basic functions (standard) OR Extended Cell (35 km) (optional) OR Extended Cell Cell Selection Parameter Set (standard)HSDPA (optional) AND Directed RRC Connection Setup for HSDPA Layer (optional)

HSUPA (optional)

HSUPA (optional)

Dual-Cell HSDPA 42Mbps (optional) AND MIMO (optional)HSDPA inter-frequency handover (optional) AND Dual-Cell HSDPA 42Mbps (optional)Dual-Cell HSDPA 42Mbps (optional) AND ( HSDPA 10 Codes (optional) OR HSDPA Dual-Cell HSDPA 42Mbps (optional)Multi-Band Load Balancing (optional)HSDPA 10 Codes (optional) OR HSDPA 15 Codes (optional)

HSDPA (optional) AND Directed RRC Connection Setup for HSDPA Layer (optional)Fractional DPCH (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)

Virtual antenna mapping (optional)Virtual antenna mapping (optional)C-Iub: Changes to Eb/N0 Parameterization (standard)Virtual antenna mapping (optional)Virtual antenna mapping (optional)Virtual antenna mapping (optional)Virtual antenna mapping (optional)

HSDPA (optional)

HSDPA (optional)

HSDPA (optional)

HSDPA (optional)

3GPP Iub (standard)

HSDPA (optional) AND HSUPA (optional) AND Fractional DPCH (optional)HSDPA (optional) AND HSUPA (optional) AND Fractional DPCH (optional)Fractional DPCH (optional)Basic functions (standard)Basic functions (standard)

HSDPA inter-frequency handover (optional)HSDPA inter-frequency handover (optional)HSDPA 64QAM (optional)HSDPA 64 Users per Cell (optional)HSDPA (optional) AND WCDMA - GSM Inter-system Handover (optional)

HSDPA (optional) AND HSDPA Layering for UEs in Common Channels (optional)

HSDPA (optional) AND Basic HSDPA with QPSK and 5 codes (optional)HSDPA (optional) AND HSDPA Channel Switching (optional)

High speed Cell_FACH DL (optional)High speed Cell_FACH DL (optional)High speed Cell_FACH DL (optional)High speed Cell_FACH DL (optional)High speed Cell_FACH DL (optional)High speed Cell_FACH DL (optional)High speed Cell_FACH DL (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)

HSDPA (optional)

Multi-Band Load Balancing (optional)HSPA 72 Users Per Cell (optional)HSDPA inter-frequency handover (optional)HSUPA (optional) AND HSUPA Handovers (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS HSDPA 10 Codes (optional) OR HSDPA 15 Codes (optional)HSUPA 16QAM (optional) AND HSUPA 5.8 Mbps (optional)HSDPA (optional) AND HSUPA (optional) AND HSUPA 2 ms TTI (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)HSUPA 16QAM (optional)HSDPA (optional) AND HSPA Multi NRT RABs (optional) OR HSDPA (optional) AND HSDPA Inter Circle Roaming (optional)LTE Interworking-ISHO from LTE (optional)

Cell Selection Parameter Set (standard)Cell Selection Parameter Set (standard)

Service Area Broadcast (optional)

Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Intelligent Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle

MIMO (optional)

Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR Inter Circle LTE Interworking-Cell Reselection to LTE (optional)

LTE Interworking-ISHO from LTE (optional)LTE Interworking-ISHO from LTE (optional)Multi-Band Load Balancing (optional) AND HSDPA inter-frequency handover Multi-Band Load Balancing (optional) AND HSDPA inter-frequency handover Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional)Multi-Band Load Balancing (optional) AND HSDPA layering for UEs in common

HSDPA inter-frequency handover (optional) AND MIMO (optional)MIMO (optional) AND HSDPA 64QAM (optional)

HSDPA (optional)

HSDPA (optional)

HSDPA (optional)

HSDPA Code Multiplexing (optional)Dual-Cell HSDPA 42Mbps (optional)Dual-Cell HSDPA 42Mbps (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)

Load and Service Based Inter-System/Inter-Frequency Handover (optional) OR HSDPA HSDPA inter-frequency handover (optional) AND HSDPA (optional) AND HSDPA Serving Cell HSDPA inter-frequency handover (optional) AND HSDPA (optional) AND HSDPA Serving Cell HSUPA (optional) AND HSUPA Basic RRM (optional) OR HSUPA (optional) AND HSUPA

Multi-Operator Core Network (optional)

Basic functions (standard) OR Service Area Broadcast (optional)Service Area Broadcast (optional)Cell Selection Parameter Set (standard)Cell Selection Parameter Set (standard)Cell Selection Parameter Set (standard)

WCDMA - GSM Inter-system Handover (optional)

HSUPA (optional) AND HSUPA Basic RRM (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)Enhanced Priority Based Scheduling and Overload Control for NRT Traffic (optional)Enhanced Priority Based Scheduling and Overload Control for NRT Traffic (optional)Enhanced Priority Based Scheduling and Overload Control for NRT Traffic (optional)Enhanced Priority Based Scheduling and Overload Control for NRT Traffic (optional)Enhanced Priority Based Scheduling and Overload Control for NRT Traffic (optional)24 kbps Paging Channel (optional)Multi-Band Load Balancing (optional)HSUPA Interference Cancellation Receiver (optional)


Power Saving Mode for BTS (optional) AND Dual-Cell HSDPA 42Mbps (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional) AND Dual-Cell HSDPA 42Mbps (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)

Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)Power Saving Mode for BTS (optional)

Power Saving Mode for BTS (optional)


HSUPA (optional) AND HSUPA Basic RRM (optional) AND HSUPA Interference HSUPA (optional) AND HSUPA Basic RRM (optional)

WCDMA - GSM Inter-system Handover (optional) AND Wireless Priority Service

HSUPA (optional) AND HSUPA Basic RRM (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)

High speed Cell_FACH DL (optional)High speed Cell_FACH DL (optional)

HSDPA (optional) AND HSUPA (optional) AND Fractional DPCH (optional)HSDPA (optional) AND HSUPA (optional) AND Fractional DPCH (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)HSDPA (optional) AND HSDPA Resource Allocation (optional) OR HSDPA (optional) AND

HSUPA (optional) AND HSUPA Basic RRM (optional)HSDPA (optional) AND HSUPA (optional)HSDPA (optional) AND HSUPA (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)HSDPA (optional) AND HSUPA (optional)HSDPA (optional) AND HSUPA (optional)HSDPA (optional) AND HSUPA (optional)HSDPA (optional) AND HSUPA (optional) AND Fractional DPCH (optional)HSDPA (optional) AND HSDPA Resource Allocation (optional)

WCDMA - GSM Inter-system Handover (optional) AND Wireless Priority Service

24 kbps Paging Channel (optional)

HSDPA (optional) AND HSDPA Resource Allocation (optional)

3GPP Iub (standard)

HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional)HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS Basic functions (standard)



Basic functions (standard)Multi-Band Load Balancing (optional)



HSDPA (optional) AND HSDPA with Simultaneous AMR Voice Call (optional) HSDPA (optional) AND HSDPA with Simultaneous AMR Voice Call (optional)HSDPA (optional) AND HSDPA with Simultaneous AMR Voice Call (optional)HSUPA (optional) AND HSUPA with Simultaneous AMR Voice Call (optional)Basic functions (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)

HSPA 72 Users Per Cell (optional) OR HSPA 128 users per cell (optional)WCDMA - GSM Inter-system Handover (optional)

Service Area Broadcast (optional)


HSUPA (optional) AND HSUPA Basic RRM (optional)Basic functions (standard)Common Channel Setup (optional)

Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)Load and Service Based Inter-System/Inter-Frequency Handover (optional)



Cell Selection Parameter Set (standard)Cell Selection Parameter Set (standard)LTE Interworking-Cell Reselection to LTE (optional)LTE Interworking-Cell Reselection to LTE (optional)



HSDPA (optional) AND HSUPA (optional) AND Fractional DPCH (optional)HSUPA (optional) AND HSUPA Basic RRM (optional)



Cell Selection Parameter Set (standard)WCDMA 1900 (optional) OR WCDMA 850 (optional) OR WCDMA 1700 & 1800 (optional)

Cell Selection Parameter Set (standard)Continuous Packet Connectivity (optional) AND ( HSPA 72 Users Per Cell (optional) OR Continuous Packet Connectivity (optional) AND ( HSPA 72 Users Per Cell (optional) OR

HSDPA (optional) AND HSDPA Dynamic Resource Allocation (optional) AND QoS HSUPA (optional) AND HSUPA Basic RRM (optional)

LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)

LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)CS Voice Over HSPA (optional)CS Voice Over HSPA (optional)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)

C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)CS Voice Over HSPA (optional)HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA HSUPA (optional) AND HSUPA Basic RRM (optional) AND QoS Aware HSPA C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)

C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)C-Iub: Changes to Eb/N0 Parameterization (standard)CS Voice Over HSPA (optional)CS Voice Over HSPA (optional)

C-Iub: Changes to Eb/N0 Parameterization (standard)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)IMSI Based Handover (optional)

LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS Shape Conversion (optional) AND Point-to-Point Iu-pc Interface (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) SAS Centric Iupc (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS Periodical Reporting (optional)

LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional) LCS - Cell Coverage Based (RTT) with Geographical Coordinates (optional)

wcdma conf param - nsn ru20

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