G Technologies for 5G SC Date: Authors: March 2016

Slides:

Advertisements

Similar presentations

Doc.: IEEE /0301r2 Submission March 2011 David Halasz, OakTree WirelessSlide 1 Categories of TGah Use Cases and Straw Polls Date: Authors:

Advertisements

Doc.: IEEE /0898r2 Submission July 2012 Marc Emmelmann, FOKUSSlide 1 Fast Initial Service Discovery: An enabler for Self-Growing Date:

Submission doc.: IEEE /1249r1 Backhaul Support in NG 60 September 2014 Monisha Ghosh (InterDigital)Slide 1 Authors: Date:

Doc.: IEEE /863r0 Submission June WG Slide 1 Liaison presentation to SC6 regarding IEEE m(b) Date: Authors:

Relay Enhancements For ay

Submission doc.: IEEE /0035r0 November 2014 Tim Godfrey, EPRISlide Smart Grid TAG Consolidated White Paper Presentation Date:

Doc.: IEEE /1126r0 Submission September 2012 Krishna Sayana, SamsungSlide 1 Wi-Fi for Hotspot Deployments and Cellular Offload Date:

Doc.: IEEE /492r02 Submission Orange Labs Date: Collaboration between 2.4/5 and 60 GHz May 2010 Authors:

Doc.: IEEE /0323r0 SubmissionRon Porat, BroadcomSlide 1 Views on ah Use Cases Date: Authors: March 2011.

Submission doc.: IEEE 11-14/0026r1 January 2014 Yong Liu, et al.Slide 1 Thoughts on HEW PAR Date: Authors:

Submission doc.: IEEE 11-13/0090r2 January 2013 Sam Oyama, ARIBSlide 1 Spectrum Allocation for Wireless LAN and ITS in Japan Date: Authors:

Studies on Indoor/Hotspot Mobile Data Solutions

Submission doc.: IEEE 11-14/0114r0 January, 2014 James Gilb, TensorcomSlide 1 Requirements for Next Generation mmWave Systems Date: Authors:

Committed to Connecting the World For the last 25 years, ITU has been coordinating the development of a global broadband multimedia international mobile.

Doc.: IEEE /0498r0 Submission April 2008 Eldad Perahia, Intel CorporationSlide 1 Modifications to the 60GHz PAR & 5 C’s Proposal Date:

Doc.: IEEE /0065r0 Submission January 2014 William Carney, SONYSlide 1 Comments on Draft HEW PAR Date: Authors:

IEEE in 5G ‘5G’ means 5th Generation Mobile Networks not 5 GHz!

Submission doc.: IEEE 11-13/0030r0 January 2013 Katsuo Yunoki, KDDI R&D LaboratoriesSlide 1 User Level Performance Date: Authors:

Doc.: IEEE 11-04/0319r0 Submission March 2004 W. Steven Conner, Intel Corporation Slide 1 Architectural Considerations and Requirements for ESS.

Submission doc.: IEEE /1402r0 November 2015 Joseph Levy, InterDigitalSlide 1 Thoughts on in a 3GPP 5G Network Date: Authors:

Doc.:IEEE /0821r3 Submission July 2008 Minho Cheong, ETRISlide 1 Some Ambiguities about Throughput Conditions in PAR Date: Authors:

Submission doc.: IEEE ai May 2012 Lei Wang, InterDigital CommunicationsSlide 1 Proposed SFD Text for ai AP/STA Initiated FILS Optimizations.

Doc.: IEEE /1279r1 Submission Nov 2015 Andrew Myles, CiscoSlide 1 Should IEEE be proposed as an IMT-2020 technology? 10 Nov 2015 Authors:

Submission doc.: IEEE /0127r0 January 2016 Joseph Levy (InterDigital)Slide 1 ITU-R IMT-2020 Status Date: Authors:

Doc.: IEEE / Submission March 2013 Juho Pirskanen, Renesas Mobile CorporationSlide 1 Discussion On Basic Technical Aspects for HEW Date:

Doc.: IEEE /0004r0 Submission Jan 2016 Andrew Myles, CiscoSlide 1 Next steps for IEEE as an IMT-2020 technology? 18 Jan 2015 Authors: NameCompanyPhone .

Doc.: IEEE /0341r2 Submission March 2011 MediaTek, Inc Slide 1 Usage Cases for ah Date: Authors:

Doc.: IEEE /0818r1 Submission Further Analysis of Feedback and Frequency Selective Scheduling (FSS) for TGax OFDMA July 2015 Slide 1 Date:

Doc.: IEEE Submission Jan 2016 Al Petrick, Jones-Petrick and AssociatesSlide 1 NOTE: Update all red fields replacing with your information;

Submission doc.: IEEE /0156r0 January 2016 Joseph LEVY (InterDigital)Slide 1 IMT-2020 Discussion Review and Straw Polls Date: Authors:

© 2012 Cisco and/or its affiliates. All rights reserved. Cisco Confidential 1 © 2012 Cisco and/or its affiliates. All rights reserved. Cisco Confidential.

Submission May 2016 H. H. LEESlide 1 IEEE Framework and Its Applicability to IMT-2020 Date: Authors:

Submission doc.: IEEE /0455r1 March 2016 Joseph Levy (InterDigital)Slide 1 Report on 802 EC 5G SC activities for Date: Authors:

Submission doc.: IEEE /0314r1 March 2016 Katsuo Yunoki, KDDI R&D Labs.Slide 1 Possible Solutions for Mobile Offloading Use Case Date:

Doc.: IEEE 802 EC-16/0078r1 May 2016 SubmissionYonggang Fang (ZTE, etc) IEEE802 as a Component of 5G Date: Slide 1 Authors: NameAffiliation .

Submission doc.: IEEE /0443r0 March 2016 Shahrnaz Azizi, Intel Corporation Date: Addressing the range and power requirements of indoor.

Doc.: IEEE /492r00 Submission Orange Labs Date: Collaboration between 2.4/5 and 60 GHz May 2010 Slide 1 Authors:

Doc.: IEEE 802 EC-16/0096r0 24 Jun 2016 SubmissionStephen PALM (Broadcom) Collaborating with 3GPP for 5G Date: Slide 1 Authors: NameAffiliation .

Doc.: IEEE /0778r0 Submission Zhendong Luo, CATR July MHz PHY Transmission Date: Authors: Slide 1.

Discussions of Inputs to 802 EC 5G SC

HEADING FOR SLIDE Sub Heading

Proposed SFD Text for ai Link Setup Procedure

Discussions of Inputs to 802 EC 5G SC

High-efficiency WLAN Straw poll

IEEE activites related to 5G

High-efficiency WLAN Straw poll

January 2013 doc.: IEEE < > January 2013

Use of for 5G Millimeter Wave Systems

High-efficiency WLAN Straw poll

Smart Buildings Use Cases

Postal & Telecommunications Regulatory Authority of Zimbabwe (POTRAZ)

François Rancy Director, ITU Radiocommunication Bureau

High-efficiency WLAN Straw poll

High-efficiency WLAN Straw poll

IMT-2020/5G SC Proposal Date: Authors: July 2016

François Rancy Director, ITU Radiocommunication Bureau

AANI SC Closing Report January 2018

Smart Buildings Use Cases

Jan 2016 doc.: IEEE Jan 2016 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Liaison.

Usage Cases for ah Date: Authors: March 2011

Infrastructure Service Discovery

120 MHz PHY Transmission Date: Authors: January 2010

3GPP Update/Status (Release 15 – June 2018)

IMT-2020/5G SC Proposal Date: Authors: July 2016

Month Year doc.: IEEE yy/xxxxr0 May 2019

High-efficiency WLAN Straw poll

D2D Technology for HEW Date: Authors: January 2010

5G as a Social Infrastructure Chaesub LEE, Director, ITU

Smart Buildings Use Cases

Month Year doc.: IEEE yy/xxxxr0 November 2018

Presentation transcript:

802.11 5G Technologies for 5G SC Date: 2016-03-15 Authors: March 2016 doc.: IEEE 802.11-16/0376r0 March 2016 802.11 5G Technologies for 5G SC Date: 2016-03-15 Authors: Joseph Levy (InterDigital) Joseph Levy (InterDigital)

March 2016 doc.: IEEE 802.11-16/0376r0 March 2016 Abstract This document provides a summary of possible 802.11 technologies that may be applicable to the current International Telecommunications Union (ITU) effort to develop the next generation of International Mobil Telecommunications (IMT), know as IMT-2020 Joseph Levy (InterDigital) Joseph Levy (InterDigital)

Index IMT-2020 Use Cases Possible 802.11 Technology Applicability March 2016 doc.: IEEE 802.11-16/0376r0 March 2016 Index IMT-2020 Use Cases Possible 802.11 Technology Applicability References Appendix (some back up slides from the references) Joseph Levy (InterDigital) Joseph Levy (InterDigital)

March 2016 doc.: IEEE 802.11-16/0376r0 March 2016 IMT-2020 Use Cases IMT-2020 has defined the following use cases (rephrased) [1]: Enhanced Mobile Broadband: Wide-area coverage: seamless coverage, medium to high mobility, improved data rate relative existing IMT (lower than Hotspot) Hotspot: high user density, very high traffic capacity, low mobility, higher data rate than Wide-area. Ultra-reliable and low latency communications: Stringent requirements for throughput, latency and availability For: industrial manufacturing, remote medical surgery, distribution automation in a smart grid, transportation safety, etc. Massive machine type communications: Very large number of devices, low volume of non-delay-sensitive Devices are: low cost, and have a very long battery life. Joseph Levy (InterDigital) Joseph Levy (InterDigital)

January 2016 IMT-2020/ITU ITU-R via IMT-2020 is defining a 5G network (Maybe “the” 5G network) The IMT-2020 5G network will provide wireless technology solutions for many traditional 802.11 use cases IMT-2020 will provide input to WRC 19 and hence will help drive spectrum allocation decisions If 802.11/802 wants to be an IMT-2020 technology it must advocate for itself in ITU-R IF 802.11/802 wants to advocate a different 5G vision to ITU, it must define and pursue that 5G vision If 802.11/802 does not advocate for itself no one else will. Doing nothing is not a viable way to grow 802.11/802 Joseph Levy (InterDigital)

Ultra-reliable/ Low latency Ultra-reliable/ Low latency March 2016 4G vs 5G Wide-area coverage Hotspot coverage Ultra-reliable/ Low latency Massive MTC Wide-area coverage Hotspot coverage Ultra-reliable/ Low latency Massive MTC Joseph Levy (InterDigital)

Possible 802.11 Technology Applicability March 2016 Possible 802.11 Technology Applicability IEEE-SA, 802 LMSC, 802.11 WLAN ITU ITU-R Active Groups: 802.11az (Next Generation Positioning) 802.11ax (High Efficiency WLAN, <6 GHz) 802.11ay (Next Generation 60 GHz) 802.11aq (Pre-Association Discovery) 802.11ak (General Link) 802.11aj (China mm-Wave) 802.11ai (Fast Initial Link Setup) 802.11ah (Extended Range, <1 GHz) Inactive Groups (not a complete list) 802.11ac, 802.11n 802.11ad 802.11p IMT-2020 Use Cases: Enhanced Mobile BB: Wide-Area Coverage Hotspot <6 GHz Hotspot >6 GHz Ultra-Reliable/Low Latency Massive machine type Massive MTC Joseph Levy (InterDigital)

802.11 as a 5G Technology IEEE-SA, 802 LMSC 802.11 802.1 802.15? 802.3 March 2016 802.11 as a 5G Technology IEEE-SA, 802 LMSC 802.11 RITs: 802.11ax, ac, n (<6 GHz) 802.11ay, aj, ad (>6 GHz) 802.11p 802.11ah (<1 GHz) Other Features: 802.11az, aq, ak, ai, ae, aa, z, v, u, s, r, k 802.1 802.15? 802.3 Joseph Levy (InterDigital)

Ultra-Reliable/ Low Latency March 2016 802.11 Proposed as RITs ITU ITU-R IEEE-SA, 802 LMSC, 802.11 WLAN Active PHY Groups: 802.11ax (High Efficiency WLAN, <6 GHz) 802.11ay (Next Generation 60 GHz) 802.11aj (China mm-Wave) 802.11ah (Extended Range, <1 GHz) Inactive PHY Groups (not a complete list) 802.11ac, 802.11n 802.11ad 802.11p Active Feature Groups: 802.11az (Next Generation Positioning) 802.11aq (Pre- Association Discovery) 802.11ak (General Link) 802.11ai (Fast Initial Link Setup) Inactive Feature Groups (not a complete list) 802.11k, 802.11r, 802.11s 802.11u, 802.11v, 802.11w, 802.11z, 802.11aa, 802.11ae IMT-2020 Use Cases: Enhanced Mobile BB: Wide-Area Coverage Hotspot <6 GHz Hotspot >6 GHz Ultra-Reliable/ Low Latency Massive MTC Joseph Levy (InterDigital)

Ultra-Reliable/ Low Latency March 2016 802.11 as SRIT in 802 RAN Proposal ITU ITU-R IEEE-SA, 802 LMSC 802.11 RITs: 802.11ax, ac, n (<6 GHz) 802.11ay, aj, ad (>6 GHz) 802.11p 802.11ah (<1 GHz) Other Features: 802.11az, aq, ak, ai, ae, aa, z, w, v, u, s, r, k IMT-2020 Use Cases: Enhanced Mobile BB: Wide-Area Coverage Hotspot <6 GHz Hotspot >6 GHz Ultra-Reliable/ Low Latency Massive MTC 802.1 802.15? 802.3 Joseph Levy (InterDigital)

Ultra-Reliable/ Low Latency March 2016 802.11 Proposed as RAT of 3GPP ITU ITU-R 3GPP IEEE-SA, 802 LMSC, 802.11 WLAN Active PHY Groups: 802.11ax (High Efficiency WLAN, <6 GHz) 802.11ay (Next Generation 60 GHz) 802.11aj (China mm-Wave) 802.11ah (Extended Range, <1 GHz) Inactive PHY Groups (not a complete list) 802.11ac, 802.11n 802.11ad 802.11p Active Feature Groups: 802.11az (Next Generation Positioning) 802.11aq (Pre- Association Discovery) 802.11ak (General Link) 802.11ai (Fast Initial Link Setup) Inactive Feature Groups (not a complete list) 802.11k, 802.11r, 802.11s 802.11u,, 802.11v 80211w, ,802.11z, 802.11aa, 802.11ae IMT-2020 Use Cases: Enhanced Mobile BB: Wide-Area Coverage Hotspot <6 GHz Hotspot >6 GHz Ultra-Reliable/ Low Latency Massive MTC WLAN Interworking LWA LWIP NG LWA NG LWIP Joseph Levy (InterDigital)

5G – Simple with a Bit More March 2016 5G – Simple with a Bit More 5G Technology 802.11 STA 802.11 GLK STA 802.11 AP/DS/Portal 802.11 AP/GLK 802.1 Bridged LAN/802.3 Proposed as RITs 802.11 AP/ DS? NA SRIT in 802 RAN Proposal 802.15 ….. Proposed as RAT of 3GPP 802.11 AP/DS/LWA 802.11 AP/DS/LWIP 3GPP Core Joseph Levy (InterDigital)

March 2016 doc.: IEEE 802.11-16/0376r0 March 2016 References IMT Vision – Framework and overall objectives of the future development of IMT for 2020 and beyond; Recommendation ITU-R M.2083-0 (2015) 11-16/0176r0 Possible liaison motion for IEE 802.11 as an IMT-2020 technology 11-16/0156r0 - IMT-2020 Discussion Review and Straw Polls 11-16/0128r1 – IMT-2020 Way Forward and Straw Polls 11-16/0127r0 – ITU-R IMT-2020 Status 11-16/0004r0 – Next steps for IMT-2020 11-15/1402r0 – Thoughts on 802.11 in a 3GPP 5G Network 11-15/1376r1 – Update on 3GPP RAN3 Muli-RAT joint coordination 11-15/1279r2 – 802.11 as IMT-2020 11-15/1153r1 – Follow-up on 802.11 as a component 11-15/0757r1 – 802.11 as a component (tutorial) 11-15/0593r2 – 802.11 as a component Joseph Levy (InterDigital) Joseph Levy (InterDigital)

Appendix (additional material) March 2016 Appendix (additional material) Joseph Levy (InterDigital)

IMT-2020 Use Case Triangle [1] March 2016 IMT-2020 Use Case Triangle [1] Joseph Levy (InterDigital)

Enhancement of key capabilities from IMT-Advanced to IMT-2020 [1] March 2016 Enhancement of key capabilities from IMT-Advanced to IMT-2020 [1] Joseph Levy (InterDigital)

March 2016 IMT-2020 importance of key capabilities in different usage scenarios [1] Joseph Levy (InterDigital)