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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.

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Presentation on theme: "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."— Presentation transcript:

1 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 Authors:

2 doc.: IEEE 802.11-12/0863r0 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

3 doc.: IEEE 802.11-12/0863r0 Submission Distance and relation to timing July 2012 David Halasz, Motorola MobilitySlide 3

4 doc.: IEEE 802.11-12/0863r0 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.

5 doc.: IEEE 802.11-12/0863r0 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

6 doc.: IEEE 802.11-12/0863r0 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

7 doc.: IEEE 802.11-12/0863r0 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

8 doc.: IEEE 802.11-12/0863r0 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

9 doc.: IEEE 802.11-12/0863r0 Submission Calculating AP to STA timing offset IEEE 802.11v 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

10 doc.: IEEE 802.11-12/0863r0 Submission Calculating AP to STA timing offset July 2012 David Halasz, Motorola MobilitySlide 10 Timing measurement procedure is defined in IEEE 802.11-2012 section 10.23.5. 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

11 doc.: IEEE 802.11-12/0863r0 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.

12 doc.: IEEE 802.11-12/0863r0 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

13 doc.: IEEE 802.11-12/0863r0 Submission TPC Knowledge of distance enables better use of transmit power control. July 2012 David Halasz, Motorola MobilitySlide 13

14 doc.: IEEE 802.11-12/0863r0 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

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