Submission doc.: IEEE 802.11-12/1065r0 Sept. 2012 Shusaku Shimada Yokogawa Electric Co. Slide 1 Estimated battery life improvement by TFM 2 P Date: 2012-09-17.

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Submission doc.: IEEE /1065r0 Sept Shusaku Shimada Yokogawa Electric Co. Slide 1 Estimated battery life improvement by TFM 2 P Date: Authors: NameAffiliationsAddressPhone Shusaku Shimada Yokogawa Electric Co Nakacho Musashinoshi, Tokyo Japan Kei Sakaguchi Osaka University 2-1 Yamada-oka Suita-shi Osaka, Japan Fei Tong CSR Churchill House, Cambridge Business Park, Cowley Road, Cambridge, CB4 0WZ, United Kingdom Mitsuru Iwaoka Yokogawa Electric Co Nakacho Musahinoshi, Tokyo Japan

Submission doc.: IEEE /1065r0 Abstract Estimated battery life improvement by reduced wake-up timing margin using TFM 2 P (Time-Freq. Measurement Mechanism & Procedure) is shown. For sensor scenarios with long communication interval, an accurate wake-up timing control using TSF of which frequency is compensated by TFM 2 P, may deserve. Slide 2Shusaku Shimada Yokogawa Electric Co. Sept. 2012

Submission doc.: IEEE /1065r0 Previous submission & Sensor usage scenario AP may provide its TSF timer accuracy information (11- 12/130r0 by Seunghee Han, et. Al., already in SFD). Previous submission (11-12/872r1) introduced TFM 2 P, which is imperative to minimize unnecessary wake-up time margin. Use case 1 (sensors and meters) suggests various type of battery operated scenarios, where 11ah is going to provide quick communication with very long sleep/hibernating periods. Slide 3Shusaku Shimada Yokogawa Electric Co. Sept. 2012

Submission doc.: IEEE /1065r0 Sept Shusaku Shimada Yokogawa Electric Co.Slide 4 Principle tactics of battery life improvement

Submission doc.: IEEE /1065r0 Sept Shusaku Shimada Yokogawa Electric Co.Slide 5 Reduction of wake-up timing margin Wake-up Scheduling and required timing margin; Wasting battery power, P W(average) ∝ △ ; for deployed sensors P W(worst case) ∝ 2△ ; for possible worst case (2) TFM 2 P may improve above wake-up margin, approx. 1/10 reduction. wake-up timing margin △ due to timer freq. accuracy TSF master (AP) TSF slave (STA) wake-up sleep again scheduled wake-up time actual sleep duration

Submission doc.: IEEE /1065r0 Sept Shusaku Shimada Yokogawa Electric Co.Slide 6 Accurate wake-up by TFM 2 P scheduled wake-up time less wake-up margin using compensated TSF timer only for residual tolerance TSF master (AP) TSF slave (STA) Wake-up sleep againactual sleep duration

Submission doc.: IEEE /1065r0 Estimated battery life improvement w/t TFM 2 P An example using Li Coin Cell* Slide 7Shusaku Shimada Yokogawa Electric Co. Sept Comm. interval (hour) (1)Battery condition: Cell capacity ~90mAh, Self discharge ~1% of full capacity/year (2)Tx Power : 20mW (3)Tx Data size: kbit/s and Mbit/s (4)Data rate : 150kbit/s (MCS0 rep2) and 3Mbit/s (MCS9) (5)TSF Timer Oscillator supply current : 1usec (continuous) *note : e.g. Panasonic Li coin cell CR2016 [ Use case 1a,1c,1d,1e/f ] Portable sensor which dumps queued data a few times a day Battery Life (year)

Submission doc.: IEEE /1065r0 Estimated battery life improvement w/t TFM 2 P An example using AAAA ZnMnO 2 Cell** Slide 8Shusaku Shimada Yokogawa Electric Co. Sept Comm. interval (hour) (1)Battery condition: Cell capacity ~300mAh, Self discharge ~4% of full capacity/year (2)Tx Power : 250mW (3)Tx Data 250 octet (4)Data rate : 150kbit/s (MCS0 rep2) and 3Mbit/s (MCS9) (5)TSF Timer Oscillator supply current : 1usec (continuous) **note : AAAA ZnMnO 2 Cell, of which capacity is depending on discharge current [ Use case 1a,1c,1d,1h ] Fixed sensor deployed in wide area or indoor which dumps set of data hourly Battery Life (year)

Submission doc.: IEEE /1065r0 Estimated battery life improvement w/t TFM 2 P An example using Li Button Cell*** Slide 9Shusaku Shimada Yokogawa Electric Co. Sept Comm. interval (hour) Battery Life (day) (1)Battery condition: Cell capacity ~35mAh, Self discharge ~1% of full capacity/year (2)Tx Power : 1mW (3)Tx Data 16 octet (4)Data rate : 150kbit/s (MCS0 rep2) and 3Mbit/s (MCS9) (5)TSF Timer Oscillator supply current : 1usec (continuous) ***note : e.g. Panasonic Li button Cell BR1220 [ Use case 1c,1d,1e/f, 1h ] Temporal sensor which send out a raw or stored data several times an hour

Submission doc.: IEEE /1065r0Sept Shusaku Shimada Yokogawa Electric Co. Slide 10 Frequency Measurement Mechanism Properly apart two time measurements can be used. dot11MgmtOptionFrequencyMsmtActivated (New) t1=ToD(M1) t4=ToA(Ack) t5=ToD(M2) t8=ToA(Ack) M2 Ack M2 Ack M1 Ack M1 Ack t2=ToA(M1) t3=ToD(M1) t6=ToA(M1) t7=ToD(M1) t1and t4 are known t5and t8 are known offset1=[(t2-t1)-(t4-t3)]/2 offset2=[(t6-t5)-(t8-t7)]/2 Sending STA(f1)Receiving STA(f2) f1= 1/k(t5-t1) f2= 1/k(t6-t2) PHY assisted time-stamp may help.

Submission doc.: IEEE /1065r0 Prerequisite for Procedure: An stability example of tuning fork crystal Slide 11Shusaku Shimada Yokogawa Electric Co. Sept ºC (Degree Centigrade ) Frequency Deviation (ppm) (1)X’tal frequency accuracy : ±20ppm (2)Sensor node (TSF Slave) : 25±10 ºC ppm / (change in ºC) 2 max parabolic curve (3)AP (TSF Master): Temperature Compensated timer may be used 1.5ppm for -10 ~ 60 ºC

Submission doc.: IEEE /1065r0Sept Shusaku Shimada Yokogawa Electric Co.Slide 12 Open issue: Procedure (1) AP may advertise possible highest tolerance of TFM 2 P PHY time stamp accuracy (11-12/0130r0; already in SFD) and in addition, Highest tolerance or TSF timer stability (to be used for TFM 2 P interval selection) as well. STA may inform its own residual tolerance to AP after compensation performed if requested. Either STA or AP select appropriate TFM 2 P scheme; Initiates explicit TFM 2 P handshake with specific interval between time measurement by STA if needed as well as perform implicit TFM 2 P at every wake-up

Submission doc.: IEEE /1065r0Sept Shusaku Shimada Yokogawa Electric Co.Slide 13 Open issue: Procedure (2) AP may collect information below; STA’s TSF frequency tolerance STA’s TSF timer stability AP may broadcast information below to all STAs; TSF frequency tolerance of worst STA TSF timer stability of worst STA

Submission doc.: IEEE /1065r0Sept Shusaku Shimada Yokogawa Electric Co.Slide 14 Straw Poll (1) Do you agree that the enhanced power saving mechanism of 11ah should provide any frequency measurement procedure of TSF timer to improve the battery life? –Yes –No –Abstain

Submission doc.: IEEE /1065r0Sept Shusaku Shimada Yokogawa Electric Co.Slide 15 Straw Poll (2) Do you agree to explore more on TFM 2 P (Time-Freq. Measurement Mechanism & Procedure) in slide 10 to be included in SFD of 11ah? –Yes –No –Abstain

Submission doc.: IEEE /1065r0Sept Shusaku Shimada Yokogawa Electric Co.Slide 16 References [1] 11-12/130r0 “beacon reception of long sleeper” [2] IEEE Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications [3] 11-12/0872r1 “time frequency measurement mechanism and procedure”