Doc.: IEEE 802.11-12/0863r0 Submission July 2012 David Halasz, Motorola MobilitySlide 1 Propagation delay and extended range IEEE 802.11 Date: 2012-07-09.

Slides:



Advertisements
Similar presentations
IEEE ah Requirements Discussion
Advertisements

Doc.: IEEE /1550r1 Submission Nov 2011 Zander, I2R SingaporeSlide 1 Extension of AID and TIM to Support 6000 STAs in ah Date:
Doc.: IEEE /0665r1 Submission May 2012 Anh Tuan Hoang et al (I2R) Slide 1 Prioritized PS-Polls Date: Authors:
PS-Poll TXOP Using RTS/CTS Protection
Dynamic Sensitivity Control V2
Submission doc.: IEEE /1357r3 Nov Slide 1 Dynamic TIM and Page Segmentation Date: Authors: Weiping Sun, Seoul National University.
Submission doc.: IEEE 11-12/0420r2 March 2012 Fei Tong, CSRSlide 1 Providing extended range with limited transmission power in ah network Date: 14-March-2012.
Doc.: IEEE /0871r0 Submission Jul 2013 Timo Koskela, Renesas Mobile CorporationSlide 1 Discussion on Potential Techniques for HEW Date:
Doc.: IEEE /1255r0 Submission Sep.,2011 Siyang Liu, CATRSlide 1 DCF Enhancements for Large Number of STAs Date: Authors:
Doc.: IEEE /1539r0 Submission Dec Minho Cheong, ETRISlide 1 Beam forming for 11ah Date: Authors:
Doc.: IEEE /1323r0 November 2012 Submission Relays for ah Date: Authors: Slide 1.
Submission doc.: IEEE /0329r1 March 2012 Chittabrata Ghosh, Nokia Slide 1 Date: Authors: Group Synchronized DCF.
Doc.: IEEE /0025r0 Submission Jan 2015 Dynamic Sensitivity Control Roaming Date: 2015-January Authors: Graham Smith, SR TechnologiesSlide 1.
Direction Finding Positioning for
Submission doc.: IEEE 11-12/279r0 March 2012 Jarkko Kneckt, NokiaSlide ai simulations Date: Authors:
Doc.: IEEE /1126r0 Submission September 2012 Krishna Sayana, SamsungSlide 1 Wi-Fi for Hotspot Deployments and Cellular Offload Date:
Doc.: IEEE /0573r1 Submission May 2012 David Halasz, Motorola MobilitySlide 1 Scalable Authentication Date: Authors:
Doc.: IEEE /492r02 Submission Orange Labs Date: Collaboration between 2.4/5 and 60 GHz May 2010 Authors:
Doc.: IEEE /0028r1 Submission January 2012 Anna Pantelidou, Renesas Mobile CorporationSlide 1 Power Saving Possibilities for Networks Supporting.
Doc.: IEEE /0112r4 Submission Supporting Authentication/Association for Large Number of Stations September 2012 Slide 1 I2R Date:
Doc.: IEEE /650r0 Submission May 2012 Anna Pantelidou, Renesas Mobile CorporationSlide 1 Grouping Methodology Date: Authors:
Doc.: IEEE /0585r1 Submission May 2012 David Halasz, Motorola MobilitySlide 1 IEEE ah and Security Date: Authors:
Doc.: IEEE /1510r0 Submission November 2011 Marc Emmelmann, FOKUSSlide 1 Enablement in 5GHz for FILS Date: Authors:
Doc.: IEEE /0130r0 Submission January 2012 Seunghee Han, LG ElectronicsSlide 1 Beacon Reception of Long Sleeper Date: Authors:
Doc.: IEEE /1290r0 Submission Nov 2013 Dynamic Sensitivity Control for HEW SG Date: Authors: Graham Smith, DSP GroupSlide 1.
Submission doc.: IEEE 11-12/0281r0 March 2012 Jarkko Kneckt, NokiaSlide 1 Recommendations for association Date: Authors:
Doc.: IEEE /0094r2 Submission Jan 2012 Slide 1 Authors: MAC Header Design for Small Data Packet for ah Date: Lv kaiying, ZTE.
Doc.: IEEE /0878r0 Submission July 2012 Timo Koskela, Renesas Mobile CorporationSlide 1 On the Channel Switching in ah Date:
Doc.: IEEE /0804r0 Submission July 2015 TG ax Outdoor Enterprise Scenario and DSC Date: Authors: Graham Smith, SR TechnologiesSlide 1.
Doc.: IEEE /117r0 Submission January 2012 Minyoung Park, Intel Corp.Slide 1 TGah TIM Operation Date: Authors:
Submission doc.: IEEE /325r0 Mar Shusaku Shimada, SchubiquistSlide 1 Utilization of Direct Link for Power Saving Date: Authors:
Doc.: IEEE /0637r0 Submission May 2014 James Wang et. al., MediaTekSlide 1 Spatial Reuse and Coexistence with Legacy Devices Date:
Doc.: IEEE /0102r2 SubmissionLiwen Chu Etc.Slide 1 TGah Power Saving Date: Authors: Date: Jan, 2012.
Doc.: IEEE /374r0 Submission March 2012 Anna Pantelidou, Renesas Mobile CorporationSlide 1 Grouping For.11ah Networks Date: Authors:
Submission doc.: IEEE ai May 2012 Lei Wang, InterDigital CommunicationsSlide 1 Proposed SFD Text for ai AP/STA Initiated FILS Optimizations.
Submission doc.: IEEE 11-12/535r1 May 2012 Jarkko Kneckt, NokiaSlide 1 Scanning and FILS requirements Date: Authors:
Submission doc.: IEEE 11-14/0866r0 July 2014 Johan Söder, Ericsson ABSlide 1 Traffic modeling and system capacity performance measure Date:
Doc.: IEEE /0619r3 Submission May 2012 Haiguang Wang et. al, I2R, SingaporeSlide 1 Overlapping IEEE ah Networks of Different Types Date:
Doc.: IEEE /1324r0 November 2012 Very Low Energy Paging Date: Authors: Slide 1 S. Merlin et al.
Submission doc.: IEEE 11-11/0761r0 July 2012 Katsuo Yunoki, KDDI R&D LaboratoriesSlide 1 Operating Channels Information Date: Authors:
Doc.: IEEE /0294r1 Submission Dynamic Sensitivity Control Channel Selection and Legacy Sharing Date: Authors: Graham Smith, DSP GroupSlide.
Doc.: IEEE /0292r1 Submission March 2012 Jonathan Segev (Intel)Slide 1 Beacon Pointer for FILS Date: Authors:
Doc.: IEEE /0337r0 Submission Mar 2011 Dwight Smith, Motorola MobilitySlide 1 Discussion – Issues with Access at Portals Date: Authors:
Doc.: IEEE /0364r3 SubmissionJeongki Kim, LG ElectronicsSlide 1 AID Reassignment Protocol Date: Authors: May 2012.
Doc.: IEEE /0645 Submission May 2012 Open-Loop Link Margin Index for Fast Link Adaptation Date: Authors: Slide 1Yong Liu, Marvell,
Doc.: IEEE /0409r6 Submission July 2012 Shoukang Zheng et. al, I2R, SingaporeSlide 1 Channel Access Supporting Low Power Operation Date:
Doc.: IEEE /0341r2 Submission March 2011 MediaTek, Inc Slide 1 Usage Cases for ah Date: Authors:
Doc.: IEEE /1229r0 Submission ah M2M Channel Access Performance Date: September 2011 Minyoung Park, Intel Corp.Slide 1 Authors:
Resolutions to Static RTS CTS Comments
Doc.: IEEE /0409r5 Submission May 2012 Shoukang Zheng et. al, I2R, SingaporeSlide 1 Supporting Low Power Operation Date: Authors:
Doc.: IEEE /1101r1 Submission Sept Active Polling Date: Authors: Slide 1Yong Liu, Marvell, et. al.
Doc.: IEEE /0624r2 SubmissionLiwen Chu Etc.Slide 1 Scheduled Medium Access For Large Low Power BSS Date: Authors: Date: May, 2012.
Doc.: IEEE af Submission Distributed Measurement Report Period for Interference Detection in af MAC Mar Chang-Woo Pyo, NICTSlide.
Doc.: IEEE /0370r0 Submission January 2012 Haiguang Wang et. al, I2R, SingaporeSlide 1 TIM Compression Date: Authors:
Doc.: IEEE /0635r1 Submission May 2014 Dynamic Sensitivity Control Implementation Date: 2014-May Authors: Graham Smith, DSP GroupSlide 1.
Doc.: IEEE /0662r2 Submission May 2012 Wai-Leong Yeow, I2R Singapore Slide 1 Block ACK Transmission Date: Authors:
SubmissionJoe Kwak, InterDigital1 PHY measurements for interference reduction from 11h Joe Kwak, Marian Rudolf InterDigital doc: IEEE /537r0July.
Doc.: IEEE /0400r0 SubmissionZander Lei, I2R SingaporeSlide 1 ACK Transmission Date: Authors: March 2012.
Submission doc.: IEEE /0331r1 March 2016 Kome Oteri (InterDigital)Slide 1 Power Control for Multi-User Transmission in ax Date:
Synchronization of HCCA APs in OBSS
Group-addressed GAS Date: Authors: December 2016 July 2013
Overlapping IEEE ah Networks of Different Types
Synchronization of HCCA APs in OBSS
End-to-End Aware Association in Mesh Networks: Performance Study
Group-addressed GAS Date: Authors: November 2016 July 2013
End-to-End Aware Association in Mesh Networks: Performance Study
July,2011 doc.: IEEE /0985r0 July,2011 Performance Evaluation of Multiple STAs’ Authentication and Association Process Date: Authors:
Overlapping IEEE ah Networks of Different Types
July,2011 doc.: IEEE /0985r0 July,2011 Performance Evaluation of Multiple STAs’ Authentication and Association Process Date: Authors:
Presentation transcript:

doc.: IEEE /0863r0 Submission July 2012 David Halasz, Motorola MobilitySlide 1 Propagation delay and extended range IEEE Date: Authors:

doc.: IEEE /0863r0 Submission Abstract As cell size increases, the propagation delay affects basic timing. STAs significantly far away will be late, in relation to their distance from the AP. Also the received signal strength, will be lower for significantly far away clients. For outdoor applications, knowledge of the STAs distance to an AP can be used to address these issues. July 2012 David Halasz, Motorola MobilitySlide 2

doc.: IEEE /0863r0 Submission Distance and relation to timing July 2012 David Halasz, Motorola MobilitySlide 3

doc.: IEEE /0863r0 Submission Perception at the AP If STA1 and STA2 calculate the same transmission time (virtual slot #), AP will receive nearer STA first. July 2012 David Halasz, Motorola MobilitySlide 4 AP will also perceive STA 2 signal strength as being higher than STA 1.

doc.: IEEE /0863r0 Submission Propagation Support via Coverage classes Coverage classes adjust basic timings to account for additional propagation delay –Adjustment is to aAirPropagationTime value –Used in calculating aSlotTime interval used for contention delay By expanding these ‘slots’ it increases the ‘wasted’ overhead used for spacing out the slots –At moderate loading, this could reduce total throughput July 2012 David Halasz, Motorola MobilitySlide 5

doc.: IEEE /0863r0 Submission Use Case #2, Backhaul Sensor and meter data From 11/457r0, TGah second agreed on use case is backhauling data. Backhaul applications have potential for line of sight, which extends the range well beyond 1 km. The delay becomes much larger July 2012 David Halasz, Motorola MobilitySlide 6

doc.: IEEE /0863r0 Submission Received signal strength of near vs far STAs If STA1 is much farther than STA2 from the AP, and both STAs have the same transmit power and antennas, obviously the AP will receive a stronger signal from STA2. Transmit power control can be useful July 2012 David Halasz, Motorola MobilitySlide 7

doc.: IEEE /0863r0 Submission Far client vs near client A cell with a mixture of near and far STAs will not perform as well as a cell with only far STAs. This is due to timing and transmit power. A cell with a mixture of near and far STAs can perform as well as a cell with only far STAs with knowledge of distance from STAs to AP. July 2012 David Halasz, Motorola MobilitySlide 8

doc.: IEEE /0863r0 Submission Calculating AP to STA timing offset IEEE v introduced timing measurement procedure to measure clock drift. By performing timing measurement after synchronization, the timing offset is due to distance instead of clock drift. –Synchronization is done by receiving Beacon or Probe Response July 2012 David Halasz, Motorola MobilitySlide 9

doc.: IEEE /0863r0 Submission Calculating AP to STA timing offset July 2012 David Halasz, Motorola MobilitySlide 10 Timing measurement procedure is defined in IEEE section Note: (t2-t1) is always zero since measurement is for timing offset rather than drift. Therefore the calculation can be optimized. t3 = (ts + Z + X1) + X2 t4 = (ts + Z + X1) + Z + X2 + Z (t4 – t3)/2 = Z

doc.: IEEE /0863r0 Submission Perception at the AP after adjustments for distance If STA1 and STA2 calculate the same transmission time, neither STA has priority by AP. July 2012 David Halasz, Motorola MobilitySlide 11 AP can use distance information for transmit power control.

doc.: IEEE /0863r0 Submission Coverage classes Instead of loosening timing because of distance, adjusting start time based on distance and avoid increasing slot times increases system throughput. –reduces overhead for allowances on propagation –increase throughput July 2012 David Halasz, Motorola MobilitySlide 12

doc.: IEEE /0863r0 Submission TPC Knowledge of distance enables better use of transmit power control. July 2012 David Halasz, Motorola MobilitySlide 13

doc.: IEEE /0863r0 Submission Conclusion Larger cell size performance can be increased by measuring and using STA distance. The distance information can be used to, –Align timing for reception at AP –Provide for more optimal timing in coverage classes –Provide for transmit power control. July 2012 David Halasz, Motorola MobilitySlide 14

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.