wireless voip
DESCRIPTION
Wireless VoIP. C3 R94922096 謝明龍 R94922088 關尚儒. Outline. Problems to use V oIP on wireless network Voice over WLAN MAC method 802.11e Dual queue scheme VoIP and 802.11x standards. VoIP on Wireless Network. Wireless network – lower speed , noise - PowerPoint PPT PresentationTRANSCRIPT
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Wireless VoIPWireless VoIP
C3C3
R94922096 R94922096 謝明龍謝明龍R94922088 R94922088 關尚儒關尚儒
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OutlineOutline
Problems to use VoIP on wireless networkProblems to use VoIP on wireless network
Voice over WLANVoice over WLAN MAC methodMAC method
802.11e802.11e
Dual queue schemeDual queue scheme
VoIP and 802.11x standardsVoIP and 802.11x standards
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VoIP on Wireless NetworkVoIP on Wireless Network
Wireless network – lower speed , noiseWireless network – lower speed , noise Upgrade physical speed , reduce noises (PHY)Upgrade physical speed , reduce noises (PHY) Real-time packet Real-time packet prioritize prioritize (MAC)(MAC)
1AP-to-many Station 1AP-to-many Station Upgrade the capacity of single APUpgrade the capacity of single AP Admission control Admission control
RoamingRoaming
Mobile device powerMobile device power
Wireless securityWireless security
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Voice over WLANVoice over WLAN
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802.11 supplements glossary802.11 supplements glossary
802.11a – 5GHz OFDM PHY layer 802.11a – 5GHz OFDM PHY layer 802.11b – 2.4GHz CCK PHY layer 802.11b – 2.4GHz CCK PHY layer 802.11c – bridging tables 802.11c – bridging tables 802.11d – international roaming 802.11d – international roaming 802.11e – quality of service MAC802.11e – quality of service MAC802.11f – inter-access point protocols 802.11f – inter-access point protocols 802.11g – 2.4GHz OFDM PHY 802.11g – 2.4GHz OFDM PHY 802.11h – European regulatory extensions 802.11h – European regulatory extensions 802.11i – enhanced security802.11i – enhanced security802.11n – MIMO ODFM PHY802.11n – MIMO ODFM PHY
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PHY PHY 802.11n 802.11n
2.4GHz+5GHz (a/b/g)2.4GHz+5GHz (a/b/g)
MIMO+OFDM MIMO+OFDM MIMO (Multiple-In, Multiple-Out)MIMO (Multiple-In, Multiple-Out)
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IEEE 802.11 MAC IEEE 802.11 MAC
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Dual Queue StrategyDual Queue Strategy
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Dual Queue StrategyDual Queue Strategy
The 802.11e MAC implementation cannot The 802.11e MAC implementation cannot be done by just upgrading the firmware of be done by just upgrading the firmware of an existing MAC controller chip onlyan existing MAC controller chip only
It is difficult to Upgrade (replace) the existiIt is difficult to Upgrade (replace) the existing APsng APs
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Dual Queue StrategyDual Queue Strategy
aboveabove 802.11 the MAC controller 802.11 the MAC controller Original NIC driver Original NIC driver FIFO queue FIFO queue New NIC driver New NIC driver RT + NRT queue RT + NRT queue
Strict priority queuing Strict priority queuing
Effect of MAC HW QueueEffect of MAC HW Queue
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Dual Queue StrategyDual Queue Strategy
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VOIP AND ADMISSION CONTROL
VoIP VoIP codec codec G.711 G.711
64 kbps stream8-bit pulse coded modulation (PCM)sampling rate : 8000 samples/second
A VoIP Packet per 20msA VoIP Packet per 20ms
160-byte DATA + 12-byte RTP header + 8-byte UDP header+ 20-byte IP header + 8-byte SNAP header
= 208 bytes per VoIP packet
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VOIP AND ADMISSION CONTROL
VoIP Admission ControlVoIP Admission Control assumptionsassumptions
ACK Packet transmitted with 2MbpsACK Packet transmitted with 2MbpsLong PHY preambleLong PHY preamble
Packet transmission MACPacket transmission MACDIFS deferenceDIFS deferenceBackoffBackoffPacket transmissionPacket transmissionSIFS deferenceSIFS deferenceACK transmissionACK transmission
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VOIP AND ADMISSION CONTROL
VoIP packet transmission time ≒VoIP packet transmission time ≒ 981μs981μs VoIP MAC packet transmission timeVoIP MAC packet transmission time
192-μs PLCP preamble/header + (24-byte MAC header + 4-192-μs PLCP preamble/header + (24-byte MAC header + 4-byte CRC-32 + 208-byte payload) / 11 Mbits/s = 363 μsbyte CRC-32 + 208-byte payload) / 11 Mbits/s = 363 μs
ACK transmission time at 2 Mbits/sACK transmission time at 2 Mbits/s192-μs PLCP preamble/header + 14-byte ACK packet / 2Mbits/s = 248 μs
Average backoff durationAverage backoff duration 31 (CWmin) * 20 μs (One Slot Time) / 2 = 310 μs
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VOIP AND ADMISSION CONTROL
Every VoIP sessioinEvery VoIP sessioin inter-activeinter-active 2 senders2 senders one voice packet transmitted every 20ms one voice packet transmitted every 20ms
Every 20ms time intervalEvery 20ms time interval 20 (= 20 ms / 981 20 (= 20 ms / 981 μs) voice packetss) voice packets
Maximum number of VoIP sessions over a Maximum number of VoIP sessions over a 802.11 LAN is 10802.11 LAN is 10
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COMPARATIVE PERFORMANCE COMPARATIVE PERFORMANCE EVALUATIONEVALUATION
Using the ns-2 simulatorUsing the ns-2 simulator 802.11b PHY 802.11b PHY TrafficTraffic
Voice Voice two-way constant bit rate (CBR) session according to G.711 codec
DataData unidirectional FTP/TCP flow with 1460-byte packet size and 12-packet (or 17520-byte) receive window size.
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COMPARATIVE PERFORMANCE COMPARATIVE PERFORMANCE EVALUATION EVALUATION
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EVALUATION RESULTEVALUATION RESULT
Pure VoIPPure VoIP
Effect of VoIP with different TCP session Effect of VoIP with different TCP session numbersnumbers
Performance with Dual queuePerformance with Dual queue
Unfairness of NRT PacketUnfairness of NRT Packet
Effect of MAC HW QueueEffect of MAC HW Queue
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ObservationObservation
Compare to our EvaluationCompare to our Evaluation packet drop ratepacket drop rate
50 packets for the RT queue size50 packets for the RT queue size
Downlink is disadvantagedDownlink is disadvantaged
Simulation results are based on 11 MbpsSimulation results are based on 11 Mbps
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EVALUATION RESULTEVALUATION RESULT
Pure VoIPPure VoIP
Effect of VoIP with different TCP session Effect of VoIP with different TCP session numbersnumbers
Performance with Dual queuePerformance with Dual queue
Unfairness of NRT PacketUnfairness of NRT Packet
Effect of MAC HW QueueEffect of MAC HW Queue
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ObservationObservation
Effect of queue sizeEffect of queue size
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EVALUATION RESULTEVALUATION RESULT
Pure VoIPPure VoIP
Effect of VoIP with different TCP session Effect of VoIP with different TCP session numbersnumbers
Performance with Dual queuePerformance with Dual queue
Unfairness of NRT PacketUnfairness of NRT Packet
Effect of MAC HW QueueEffect of MAC HW Queue
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ObservationObservation
worst case delay 11msworst case delay 11ms Queuing delay with the single queue MAC HW queue wireless channel access
NRT queuesNRT queues Size = 50 or 100 increase as the number of
TCP flows increases Size = 500 almost no change in delay
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EVALUATION RESULTEVALUATION RESULT
Pure VoIPPure VoIP
Effect of VoIP with different TCP session Effect of VoIP with different TCP session numbersnumbers
Performance with Dual queuePerformance with Dual queue
Unfairness of NRT PacketUnfairness of NRT Packet
Effect of MAC HW QueueEffect of MAC HW Queue
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ObservationObservation
Unfairness Unfairness between upstream and downstream TCP flow
s with the queue sizes of 50 and 100
Queue size for the AP should be large enoQueue size for the AP should be large enough - This is good for usugh - This is good for us
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EVALUATION RESULTEVALUATION RESULT
Pure VoIPPure VoIP
Effect of VoIP with different TCP session Effect of VoIP with different TCP session numbersnumbers
Performance with Dual queuePerformance with Dual queue
Unfairness of NRT PacketUnfairness of NRT Packet
Effect of MAC HW QueueEffect of MAC HW Queue
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ObservationObservation
Delay of downlink voice packetsDelay of downlink voice packets increases linearly proportional to the MAC HW queue
size
Another effectAnother effect with the MAC HW queue size of 8, the worst delay is
observed with a single VoIP session
Large MAC HW queue size is still aceptableLarge MAC HW queue size is still aceptable <25ms
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Brief SummaryBrief Summary
Driver of the 802.11 MAC controllerDriver of the 802.11 MAC controller
Strict priority queuingStrict priority queuing
Bottleneck of TCP in WLAN Bottleneck of TCP in WLAN downlink downlink
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VoIP and 802.11e QoS stanVoIP and 802.11e QoS standardsdards
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What’s the difference between What’s the difference between Wireless/Wired VoIP?Wireless/Wired VoIP?
MobilityMobility RoamingRoaming
SecuritySecurity Hidden UAHidden UA
Quality of ServiceQuality of Service Guarantee of voice qualityGuarantee of voice quality
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Hidden Node ProblemHidden Node Problem
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Quality of ServiceQuality of Service
QoS problemsQoS problems
802.11e QoS standard802.11e QoS standard
A non-standard solution –A non-standard solution –
Dual Queue StrategyDual Queue Strategy
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QoS ProblemsQoS Problems
Dropped PacketsDropped PacketsDelayDelayJitterJitterOut-of-order DeliveryOut-of-order DeliveryErrorError
VoIP requires strict limits on jitter and VoIP requires strict limits on jitter and delay delay
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Quality of ServiceQuality of Service
QoS problemsQoS problems
802.11e QoS standard802.11e QoS standard
A non-standard solution –A non-standard solution –
Dual Queue StrategyDual Queue Strategy
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IEEE 802.11eIEEE 802.11e
A draft standard of July 2005A draft standard of July 2005
It defines a set of QoS enhancements for It defines a set of QoS enhancements for WLAN applicationsWLAN applications
and enhances the IEEE 802.11 Media and enhances the IEEE 802.11 Media Access Control (MAC) layerAccess Control (MAC) layer
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Coordination FunctionCoordination Function
For stations to decide which one has the For stations to decide which one has the right to deliver its packetsright to deliver its packets
802.11: DCF & PCF802.11: DCF & PCF
802.11e: EDCF & HCF802.11e: EDCF & HCF
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Original 802.11 MACOriginal 802.11 MAC
Distributed Coordination Function (DCF)Distributed Coordination Function (DCF)
Point Coordination Function (PCF)Point Coordination Function (PCF)
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Distributed Coordination Function Distributed Coordination Function (DCF)(DCF)
Share the medium between multiple Share the medium between multiple stationsstations
Rely on CSMA/CA and optional 802.11 Rely on CSMA/CA and optional 802.11 RTS/CTSRTS/CTS
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How DCF works?How DCF works?
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DCF LimitationsDCF Limitations
When many collisions occur, the available When many collisions occur, the available bandwidth will be lowerbandwidth will be lower
No notion of high or low priority trafficNo notion of high or low priority traffic
A station may keep the mediumA station may keep the medium
If the station has a lower bitrate, all other If the station has a lower bitrate, all other stations will suffer from thatstations will suffer from that
No QoS guaranteesNo QoS guarantees
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Original 802.11 MACOriginal 802.11 MAC
Distributed Coordination Function (DCF)Distributed Coordination Function (DCF)
Point Coordination Function (PCF)Point Coordination Function (PCF)
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Point Coordination Function (PCF)Point Coordination Function (PCF)
Available only in "infrastructure" modeAvailable only in "infrastructure" mode
Optional mode, only very few APs or Wi-Fi Optional mode, only very few APs or Wi-Fi adapters actually implement itadapters actually implement it
Beacon frame, Contention Period, and CoBeacon frame, Contention Period, and Contention Free Periodntention Free Period
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How PCF works?How PCF works?
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802.11 MAC Layer Framework802.11 MAC Layer Framework
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802.11e MAC Protocol Operation802.11e MAC Protocol Operation
Enhanced DCF (EDCF)Enhanced DCF (EDCF)
Hybrid Coordination Function (HCF)Hybrid Coordination Function (HCF)
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Enhanced DCF (EDCF)Enhanced DCF (EDCF)
Define Traffic ClassesDefine Traffic Classes
High priority traffic has a higher chance of being High priority traffic has a higher chance of being sent than low priority trafficsent than low priority traffic
A "best effort" QoSA "best effort" QoS
Simple to configure and implementSimple to configure and implement
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802.11e MAC Protocol Operation802.11e MAC Protocol Operation
Enhanced DCF (EDCF)Enhanced DCF (EDCF)
Hybrid Coordination Function (HCF)Hybrid Coordination Function (HCF)
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Hybrid Coordination Function Hybrid Coordination Function (HCF)(HCF)
Works a lot like the PCFWorks a lot like the PCFMain difference with the PCF: Define the TMain difference with the PCF: Define the Traffic Classes (TC)raffic Classes (TC)Stations are given a Transmit Opportunity Stations are given a Transmit Opportunity (TXOP)(TXOP)TThe most advanced (and complex) he most advanced (and complex) coordination functioncoordination functionQoS can be configured with great precisioQoS can be configured with great precisionn
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ConclusionConclusion
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Paper References 1Paper References 1
Jeonggyun YuJeonggyun Yu,, Sunghyun Choi Sunghyun Choi,, Jaehwan Lee Jaehwan Lee, , “Enhancement of VoI“Enhancement of VoIP over IEEE 802.11 WLAN via Dual Queue Strategy”P over IEEE 802.11 WLAN via Dual Queue Strategy”Moncef Elaoud, David Famolari, and Ahbrajit GhoshMoncef Elaoud, David Famolari, and Ahbrajit Ghosh, , “Experimental “Experimental VoIP Capacity Measurements for 802.11b WLANs”VoIP Capacity Measurements for 802.11b WLANs”Mustafa ErgenMustafa Ergen, , “I-WLAN: Intelligent Wireless Local Area Networking“I-WLAN: Intelligent Wireless Local Area Networking””Gyung-Ho Hwang, Dong-Ho Cho,Gyung-Ho Hwang, Dong-Ho Cho, “New Access Scheme for VoIP P“New Access Scheme for VoIP Packets in IEEE 802.11e Wireless LANs”ackets in IEEE 802.11e Wireless LANs”Sai Shankar NSai Shankar N, , Javier del Prado PavonJavier del Prado Pavon, , Patrick WienertPatrick Wienert, , “Optimal p“Optimal packing of VoIP calls in an IEEE 802.11a/e WLAN in the presence of acking of VoIP calls in an IEEE 802.11a/e WLAN in the presence of QoS Constraints and Channel Errors”QoS Constraints and Channel Errors”
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Paper Reference 2Paper Reference 2
Experimental VoIP capacity measurements for 802.11b WLANsEnhancement of VolP over IEEE 802.11 WLAN via dual queue strategyAn experimental study of throughput for UDP and VoIP traffic in IEEE 802.11b networksAdmission control for VoIP traffic in IEEE 802.11 networksHow well can the IEEE 802.11 wireless LAN support quality of service
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Web Site ReferencesWeb Site References
http://www.ieee.or.com/Archive/80211/802_11e_http://www.ieee.or.com/Archive/80211/802_11e_QoS_files/frame.htmQoS_files/frame.htm
http://en.wikipedia.org/wiki/IEEE_802.11http://en.wikipedia.org/wiki/IEEE_802.11
http://www.cs.nthu.edu.tw/~nfhuang/chap13.htmhttp://www.cs.nthu.edu.tw/~nfhuang/chap13.htm#13.1#13.1
http://www.eettaiwan.com/ART_8800360909_67http://www.eettaiwan.com/ART_8800360909_675327_3f3ffd7b_no.HTM5327_3f3ffd7b_no.HTM
http://it.sohu.com/2003/12/11/09/article2167509http://it.sohu.com/2003/12/11/09/article216750985.shtml85.shtml