atis 3gpp webinar · pdf file3gpp overview/structure ... feasibility study on enhancements to...
TRANSCRIPT
Advancing ICT Industry Transformation
ATIS 3GPP Webinar
Tuesday, August 29, 2017
12:30 2:00 p.m. ET
Agenda
3GPP Overview/Structure - Tom Anderson, ATIS
Rel 15, 16 5G Schedule
Key Features and Capabilities:
Services Perspective - Farrokh Khatibi, Qualcomm
Core Network/Architecture View - Stephen Hayes, Ericsson
Description of RAN Features and Capabilities - Emad Farag, Nokia
Wrap: North American Priorities Recap - Tom Anderson, ATIS
Q&A 2
SPEAKERS
3
Tom Anderson
Senior Technology Consultant
ATIS
Dr. Emad Farag
Sr 5G Physical Layer Standards Engineer
Nokia
Stephen Hayes
Director of North American Standards
Ericsson
Dr. Farrokh Khatibi
Director of Engineering
QUALCOMM
Attendees will remain muted throughout the
Webinar but may submit questions via
attendee control panel. As many questions as
possible will be addressed at the conclusion of
all presentations. Unanswered questions will
be addressed via email.
Slides will be emailed to all participants.
4
3GPP Organizational Partners
5
6
TSG RAN
Radio Access Network
RAN WG1
Radio Layer 1 spec
RAN WG2
Radio Layer 2 spec
Radio Layer 3 RR spec
RAN WG3
lub spec, lur spec, lu spec
UTRAN O&M rqmts
RAN WG4
Radio Performance
Protocol aspects
RAN WG5
Mobile Terminal
Conformance Testing
RAN WG6
Legacy RAN radio and
protocol
TSG SA
Service & Systems
Aspects
SA WG1
Services
SA WG2
Architecture
SA WG3
Security
SA WG4
Codec
SA WG5
Telecom Management
SA WG6
Mission-critical
applications
TSG CT
Core Network & Terminals
CT WG1
MM/CC/SM (lu)
CT WG3
Interworking with external
networks
CT WG4
MAP/GTP/BCH/SS
CT WG6
Smart Card Application
Aspects
Project Coordination Group (PCG)
Find a complete list of 3GPP work items at http://www.3gpp.org/DynaReport/WI-List.htm
7
http://www.3gpp.org/DynaReport/WI-List.htm
Agenda
3GPP Overview/Structure - Tom Anderson, ATIS
Rel 15, 16 5G Schedule
Key Features and Capabilities:
Services Perspective - Farrokh Khatibi, Qualcomm
Core Network/Architecture View - Stephen Hayes, Ericsson
Description of RAN Features and Capabilities - Emad Farag, Nokia
Wrap: North American Priorities Recap - Tom Anderson, ATIS
Q&A 8
9
Services Perspective
ATIS WebinarKey Features and Capabilities
Dr. Farrokh Khatibi
Dir of Engineering
Qualcomm Technologies Inc.
108/29/2017
5G Use Cases
Main use case of 5G: eMBB (enhanced Mobile Broadband) URLLC (Ultra-Reliable and Low Latency
Communications) mMTC (massive Machine Type
Communications)
118/29/2017
Enhancement of key capabilities from IMT-Advanced to IMT-2020*
11
* Source: Recommendation ITU-R M.2083-0, IMT Vision Framework and overall objectives of the future development of IMT for 2020 and beyond
128/29/2017
The importance of key capabilities in different usage scenarios*
12
* Source: Recommendation ITU-R M.2083-0, IMT Vision Framework and overall objectives of the future development of IMT for 2020 and beyond
138/29/2017
TS 22.261 was completed in February of 2017:
Resolved long debate on UE vs IoT device (UICC/eUICC removed for 5G access)
User Equipment: An equipment that allows a user access to network services via 3GPP and/or non-3GPP accesses.
IoT device: a type of UE which is dedicated for a set of specific use cases or services and which is allowed to make use of certain features restricted to this type of UEs.
Added an Annex on factory/process automation, electricity distribution, and intelligent transport use cases.
5G TRs available for context on use cases and building blocks
TR 22.891 SMARTER -- 5G use cases
TR 22.861 SMARTER-mIoT -- requirements for massive IoT
TR 22.862 SMARTER-CRIC -- mission critical requirements, industrial automation and tactile Internet
TR 22.863 SMARTER-eMBB -- evolved mobile broadband, higher data rates, higher density, deployment and coverage, scalable mobility
TR 22.864 SMARTER-NEO -- horizontal requirements, new business models, migration and interworking, and security.
3GPP TS 22.261 Service requirements for the 5G system - First 5G Specification from 3GPP
148/29/2017
Alternate authentication, credentials and identities for network access
Neutral host (partnership networks)
Network and service slicing
3rd party ownership/control of service slicing
Industrial (factory and process) automation and KPIs
Dynamic remote provisioning
Security of device identities
Pseudo-identifiers to hide subscriber identity (no IMSI on first attach)
Elimination of UICC/eUICC requirement
Self Backhauling, integrated access and backhaul
Network selection optimizations
Example of TS 22.261 Service requirements for the 5G system
158/29/2017
Limited backward compatibility with 4G, but not as much with 2G/3G:
The 5G system shall support all EPS capabilities (e.g., from TSs 22.011, 22.101, 22.278, 22.185, 22.071, 22.115, 22.153, 22.173) with the following exceptions:
CS voice service continuity and/or fallback to GERAN or UTRAN,
seamless handover between 5G-RAN and GERAN,
seamless handover between 5G-RAN and UTRAN, and
access to a 5G core network via GERAN or UTRAN.
Selected requirements TS 22.261
168/29/2017
Security
The 5G system shall support operator controlled alternative authentication methods (i.e., alternative to AKA) with different types of credentials for network access for IoTdevices in isolated deployment scenarios (e.g., for industrial automation).
For a private network using 5G technology, the 5G system shall support network access using identities, credentials, and authentication methods provided and managed by a 3rd party and supported by 3GPP.
The 5G system shall be able to protect subscriber identity and other user identifying information from passive attacks.
The 5G system shall be able to protect subscriber identity and other user identifying information from active attacks.
The 5G system shall be able to support identification of subscriptions independently of identification of equipment.
Selected requirements TS 22.261
178/29/2017
Wireless self-backhauling
The 5G network shall enable operators to support wireless self-backhaul using New Radio (NR) and E-UTRA.
The 5G network shall support flexible and efficient wireless self-backhaul for both indoor and outdoor scenarios.
The 5G network shall support flexible partitioning of radio resources between access and backhaul functions.
The 5G network shall support autonomous configuration of access and wireless self-backhaul functions.
The 5G network shall support multi-hop wireless self-backhauling to enable flexible extension of range and coverage area.
The 5G network shall support autonomous adaptation on wireless self-backhaul network topologies to minimize service disruptions.
The 5G network shall support topologically redundant connectivity on the wireless self-backhaul to enhance reliability and capacity and reduce latency.
Selected requirements TS 22.261
188/29/2017
Provisioning and network selection
Based on operator policy, the 5G system shall support a mechanism to provision on-demand connectivity (e.g. IP connectivity for remote provisioning). This on-demand mechanism should enable means for a user to request on-the-spot network connectivity while providing operators with identification and security tools for the provided connectivity.
The 5G system shall support a secure mechanism for a home operator to remotely provision the 3GPP credentials of a uniquely identifiable and verifiably secure device used for IoT purposes.
The 5G system shall support 3GPP Access Network Selection (PLMN selection), based on the Rel-14 principles documented in 3GPP TS 22.011 [3].
The 5G system shall support selection among any available PLMN/RAT combinations, identified through their respective PLMN identifier and Radio Access Technology identifier, in a prioritised order. The priority order may, subject to operator policies, be provisioned in an Operator Controlled PLMN Selector lists with associated RAT identifiers, stored in the 5G UE.
The 5G system shall support, subject to operator policies, a User Controlled PLMN Selector list stored in the 5G UE, allowing the UE user to specify preferred PLMNs with associated RAT identifier in priority order.
Selected requirements TS 22.261
198/29/2017
3rd party slicing
The 5G system shall allow the operator to create, modify, and delete a network slice.
The 5G system shall allow the operator to define and update the set of services and capabilities supported in a network slice.
The 5G system shall allow the operator to configure the information which associates a device to a network slice.
The 5G system shall allow the operator to configure the information which associates a service to a network slice.
The 5G system shall allow the operator to assign a device to a network slice,