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

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Presentation on theme: "G Technologies for 5G SC Date: Authors: March 2016"— Presentation transcript:

1 802.11 5G Technologies for 5G SC Date: 2016-03-15 Authors: March 2016
doc.: IEEE /0376r0 March 2016 G Technologies for 5G SC Date: Authors: Joseph Levy (InterDigital) Joseph Levy (InterDigital)

2 March 2016 doc.: IEEE /0376r0 March 2016 Abstract This document provides a summary of possible 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)

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

4 March 2016 doc.: IEEE /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)

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

6 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)

7 Possible 802.11 Technology Applicability
March 2016 Possible Technology Applicability IEEE-SA, 802 LMSC, 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, n 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)

8 802.11 as a 5G Technology IEEE-SA, 802 LMSC 802.11 802.1 802.15? 802.3
March 2016 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)

9 Ultra-Reliable/ Low Latency
March 2016 Proposed as RITs ITU ITU-R IEEE-SA, 802 LMSC, 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, n 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, r, s u, v, w, z, aa, ae 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)

10 Ultra-Reliable/ Low Latency
March 2016 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)

11 Ultra-Reliable/ Low Latency
March 2016 Proposed as RAT of 3GPP ITU ITU-R 3GPP IEEE-SA, 802 LMSC, 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, n 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, r, s u,, v w, ,802.11z, aa, ae 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)

12 5G – Simple with a Bit More
March 2016 5G – Simple with a Bit More 5G Technology STA GLK STA AP/DS/Portal AP/GLK 802.1 Bridged LAN/802.3 Proposed as RITs AP/ DS? NA SRIT in 802 RAN Proposal ….. Proposed as RAT of 3GPP AP/DS/LWA AP/DS/LWIP 3GPP Core Joseph Levy (InterDigital)

13 March 2016 doc.: IEEE /0376r0 March 2016 References IMT Vision – Framework and overall objectives of the future development of IMT for 2020 and beyond; Recommendation ITU-R M (2015) 11-16/0176r0 Possible liaison motion for IEE as an IMT 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 in a 3GPP 5G Network 11-15/1376r1 – Update on 3GPP RAN3 Muli-RAT joint coordination 11-15/1279r2 – as IMT-2020 11-15/1153r1 – Follow-up on as a component 11-15/0757r1 – as a component (tutorial) 11-15/0593r2 – as a component Joseph Levy (InterDigital) Joseph Levy (InterDigital)

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

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

16 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)

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

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