Submission doc.: IEEE 802.11-14/1249r1 Backhaul Support in NG 60 September 2014 Monisha Ghosh (InterDigital)Slide 1 Authors: Date: 2014-09-15.

Slides:

Advertisements

Similar presentations

Doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 1 Throughput Enhancement via Frame Aggregation – A Sequel.

Advertisements

Doc.: IEEE /1392r0 Submission November 12, 2008 De Vegt (Qualcomm)Slide 1 Inputs for a VHT Selection Procedure Date: Authors:

Doc.: IEEE /0527r0 Submission March 2010 Slide 1 A Periodic 5 MHz Measurement Pilot for Channel Scan Date: Authors:

Doc.: IEEE /0046r0 Submission July 2009 Ari Ahtiainen, NokiaSlide 1 A Cooperation Mechanism for Coexistence between Secondary User Networks on.

Scrambler Mismatch and MAC FEC: Is there a problem?

Doc.:IEEE /1275r0 Submission Laurent Cariou Nov, 2010 Slide 1 Complexity reduction for time domain H matrix feedback Authors: Date:

Beyond ad – Ultra High Capacity and Throughput WLAN

Doc.: IEEE /0328r2 Submission Dense Apartment Complex Throughput Calculations Channel Selection and DSC Date: Authors: Graham Smith, DSP.

Wi-Fi interference measurements in Korea (Part II)

Submission doc.: IEEE 11-14/0xxx March 2014 Giwon Park, LG ElectronicsSlide 1 Discussion on power save mode for real time traffic Date: Authors:

Doc.: IEEE /1111r0 Submission Sept 2013 Xiaoming PengSlide 1 Date: Authors: IEEE aj Task Group Sept 2013 Closing Report.

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

PHY Abstraction for TGax System Level Simulations

Doc.: IEEE /1489r4 Submission Jan 2014 Airport Capacity Analysis Date: Authors: Graham Smith, DSP GroupSlide 1.

Doc.: IEEE /0058r0 Submission Jan 2014 Pico Cell Use Case Analysis HEW SG Date: Authors: Graham Smith, DSP GroupSlide 1.

Doc.: IEEE /0045r1 Submission Jan 2014 E-Education Analysis HEW SG Date: Authors: Graham Smith, DSP GroupSlide 1.

Submission doc.: IEEE 11-14/0802r0 Consideration on UL MU transmission Date: Slide 1Jinyoung Chun et. al, LG Electronics July 2014 Authors:

Doc.: IEEE 11-13/1115r0 Submission Sept Minho Cheong (ETRI)Slide 1 Possible Vision of HEW-driven Wi-Fi’2020 Date: Authors: NameAffiliationsAddressPhone .

Doc.: IEEE /1515r0 Submission November 2011 Timo Koskela, Renesas Mobile CorporationSlide ah Wi-Fi Offloading Considerations Date:

Doc.: IEEE /1363r0 Submission November 2013 Ron Porat, Broadcom Evaluation Methodology Open Items Date: Authors: Slide 1.

Doc.: IEEE /0613r0 Submission May 2012 Ron Porat, Broadcom US Channelization Date: Authors: Slide 1.

Doc.: IEEE /1516r0 Submission November 2011 Huai-Rong Shao, et.al. Samsung ElectronicsSlide ah Channelization Proposal for US Date:

GroupID Concept for Downlink MU-MIMO Transmission

Doc.: IEEE /0391r0 Submission March 2009 Carlos Cordeiro, Intel CorporationSlide 1 Implications of usage models on TGad network architecture Date:

Doc.: IEEE /1205r1 Submission September 2011 ZTE CorporationSlide 1 Consideration on battery power alarm mechanism for IEEE ah framework.

Doc.: IEEE / hew Submission March 2014 Raja Banerjea, CSRSlide 1 A Simplified Simultaneous Transmit and Receive Mechanism Date:

Doc.: IEEE /1106r0 Submission September 2012 Osama Aboul-Magd, Huawei TechnologiesSlide 1 A Short-Header Frame Format Date: Authors:

Doc.: IEEE /0338r0 Submission March 2009 Chiu Ngo et al. (Samsung Electronics)Slide 1 Enhancement of ad-hoc Mode Date: Authors:

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

Doc.: IEEE /0142r0 Submission January 2011 Nir Shapira, Celeno Communications DL MU-MIMO Support for non-AP STAs Date: Authors: Slide.

Doc.: IEEE /0839r0 Submission Slide 1S. Abraham, Qualcomm Inc. July 2010 DL MU-MIMO performance with QoS traffic and OBSS.

Doc.: IEEE /0525r0 Submission May 2008 Mark Grodzinsky, WilocitySlide 1 Recommendation for 60GHz PAR to be an Amendment to the Standard.

Submission doc.: IEEE /1409r0 November 2013 Adriana Flores, Rice UniversitySlide 1 Dual Wi-Fi: Dual Channel Wi-Fi for Congested WLANs with Asymmetric.

Impact of LTE in Unlicensed Spectrum on Wi-Fi

Doc.: IEEE /0810r0 Submission May 2011 Minho Cheong, ETRISlide 1 Selection of Key Requirement Elements for Baseline FR-EM Document Date:

Submission doc.: IEEE /0328r0 Nokia Internal Use Only March 2012 Slide 1 Date: Authors: PS-Poll Enhancements Chittabrata Ghosh, Nokia.

Submission doc.: IEEE 11-13/1100r0 September 2013 Osama Aboul-Magd (Huawei Technologies)Slide 1 HEW SG Progress Review Date: Authors:

Doc.: IEEE /0373r0 Submission March 2012 Ron Porat, Broadcom BF Frame Format Date: Authors: Slide 1.

Doc.: IEEE /0995r0 Submission July 2011 Nir Shapira, Celeno Communications Determination of Ng in MU mode (CID 3432) Date: Authors:

Submission doc.: IEEE 11-14/0579r1 Date: A Backhaul Use Case for NG 11ad May 2014 Joseph Levy (InterDigital)Slide 1 Authors:

Doc.: IEEE /0782r0 Submission July 2010 Daewon Lee, LG ElectronicsSlide 1 STA MU-MIMO Group Management Signaling Design Date: Authors:

Doc.: IEEE /1278r0 Submission BSS load balancing for MU-MIMO Date: Authors: Nov 2010 Slide 1Daewon Lee, LG Electronics.

Doc.: IEEE /0783r0 Submission July 2010 Daewon Lee, LG ElectronicsSlide 1 MU-MIMO support for BSS load balancing Date: Authors:

Doc.: IEEE /1123r0 Submission September 2010 Zhu/Kim et al 1 Date: Authors: [TXOP Sharing for DL MU-MIMO Support]

Doc.: IEEE /0440r1 Submission July 2013 Jiamin Chen, HuaweiSlide 1 Dynamic Channel Transfer(DCT) procedure for IEEE aj （ 60GHz ） Date:

Doc.: IEEE /1144r1 Submission W.Carney et al (Sony, Ericsson) Slide 1 Simplified Traffic Model Based On Aggregated Network Statistics Date:

Submission doc.: IEEE /1436r0 November 2014 Interdigital CommunicationsSlide 1 Overhead Analysis for Simultaneous Downlink Transmissions Date:

Submission doc.: IEEE /1186r2 September 2014 Pengfei Xia, Interdigital CommunicationsSlide 1 Comparisons of Simultaneous Downlink Transmissions.

Submission doc.: IEEE /0327r0 March 2015 Jarkko Kneckt, NokiaSlide 1 Microsleep for HE STA Date: Authors:

Virtual Desktop Infrastructure (VDI)

Doc.: IEEE /1176r0 Submission Sep 2013 Reza Hedayat (Cisco Systems) Slide 1 Some Simulation Scenarios for HEW NameAffiliationPhone Reza HedayatCisco.

Doc.: IEEE /1190r2 September 2014 Submission Kaiying Lv (ZTE) Frame Exchange Control for Uplink Multi-user transmission Slide 1 Date:

Non-linear pre-coding for next generation WLAN

Doc.: IEEE /1510r0 Submission November 2014 Edward Au (Marvell Semiconductor)Slide 1 Summary of PAR and CSD Discussion Date: Authors:

Doc.: IEEE /1316r1 Submission Considerations for Cellular-Offloading Use Case Date: September 2011 Joseph Teo Chee Ming et al, I2R.

Beyond ad – Ultra High Capacity and Throughput WLAN 2nd presentation

Submission doc.: IEEE /0636r0 May 2015 SangHyun Chang (Samsung Electronics)Slide 1 A View on IEEE ay Date: Authors:

Submission doc.: IEEE 11-15/ Approach to NG60 Peak Rate Slide 1 January 2015 Yi Wang, Huawei Authors: NameAffiliationAddressPhone Hong LiHuaweiNo.2222,

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

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

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

Doc.: IEEE /180r0 Submission March 2002 Monisha Ghosh, et al., Philips Slide 1 On The Use Of Multiple Antennae For Monisha Ghosh, Xuemei.

Submission doc.: IEEE 11-14/0136r2 January 2014 Gal Basson, WilocitySlide 1 Beyond ad – Ultra High Capacity and Throughput WLAN 2 nd presentation.

Submission doc.: IEEE 11-13/1398r0 Nov 2013 Akira Yamada, NTT DOCOMO, Inc.Slide 1 Requirements for HEW Date: Authors:

Submission doc.: IEEE /1158r0 September 2013 William Carney (SONY)Slide 1 Video Traffic and Applications for HEW Date: Authors:

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

IEEE ah Use Case – Outdoor Wi-Fi for cellular traffic offloading

VHT - SG Date: Authors: July 2007 Month Year

D2D Technology for HEW Date: Authors: January 2010

Relay Enhancement Date: Authors: September 2016

Presentation transcript:

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

Submission doc.: IEEE /1249r1 September 2014 Monisha Ghosh (InterDigital)Slide 2 Abstract This contribution outlines some of the requirements for supporting backhaul in NG 60.

Submission doc.: IEEE /1249r1September 2014 Monisha Ghosh (InterDigital)Slide 3 Recap of Backhaul Usage Model Small cells are becoming increasingly important for cellular and Wi-Fi [1]. Requirements: ~ 2 Gbps peak per small-cell data rate 100 m – 150 m cell size Latency: ~ 5 ms, one way, end-to-end. Support for bursty traffic mmW backhaul enabled by ad/NG60: Leverage availability of low-cost chipsets, driven by volume (ABI Research: 1.5 billion chipsets by 2018)

Submission doc.: IEEE /1249r1September 2014 Monisha Ghosh (InterDigital)Slide 4 What does backhaul need from NG 60? Multi-hop capability. Existing ad specification may not be sufficient for extended range applications. Enhanced QoS guarantees: Beyond current ad specification. Higher data rate Will be addressed by planned high-data rate enhancements (MIMO, channel bonding, etc.). MU-MIMO may be beneficial as well. Enhanced discovery methods for longer range Discovery range = Communication range.

Submission doc.: IEEE /1249r1September 2014 Monisha Ghosh (InterDigital)Slide 5 Use cases enabled Solutions that meet the backhaul requirements will also provide benefits to other use cases of interest: High-data-rate indoor applications [2], such as video streaming, would benefit from extended range. Deployment of infrastructure NG60 APs would benefit from the possibility of self-backhaul, leading to lower-cost.

Submission doc.: IEEE /1249r1September 2014 Monisha Ghosh (InterDigital)Slide 6 Conclusions Support for backhaul in NG60 may require MAC only or PHY/MAC enhancements to current ad. Support for backhaul in NG60 will enable new deployment and use scenarios that may not be fully served by ad. Support for backhaul is complementary to high-rate enhancements such as MIMO, higher-order constellation, channel bonding etc.

Submission doc.: IEEE /1249r1September 2014 Monisha Ghosh (InterDigital)Slide 7 References [1] 11-14/0579r1, A Backhaul Use Case For NG 11ad, Joseph Levy et al, May [2] 11-14/0606r0, Next Generation ad: 30+ Gbps WLAN, Carlos Cordeiro et al, May 2014.