Submission doc.: IEEE 802.11-15/0103r0 January 2015 Jarkko Kneckt, NokiaSlide 1 Power Save Calibration Date: 2015-01-12 Authors:

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Presentation transcript:

Submission doc.: IEEE /0103r0 January 2015 Jarkko Kneckt, NokiaSlide 1 Power Save Calibration Date: Authors:

Submission doc.: IEEE /0103r0 January 2015 Jarkko Kneckt, NokiaSlide 2 Abstract The submission provides results for power save calibration simulations. U-APSD and active mode are simulated with VoIP application. Power Save Mode transition and active mode are simulated with a single DL data frame transmission every 200ms. All test cases and parameters are defined in r5 Simulation Scenarios.

Submission doc.: IEEE /0103r0January 2015 Jarkko Kneckt, NokiaSlide 3 Power Save Calibration The power save calibration ensures the correct implementation of the power save mechanisms The simulation case should be simple and easy to understand The PS mechanisms need to be implemented similarly to produce the same results Vendor specific implementations are not used in calibration scenario. The calibrated operations should be minimized The operation in calibration scenarios may be simplified, real devices may apply advanced control mechanisms for power save Outcome of calibration is the time distribution of operation time in PHY modes

Submission doc.: IEEE /0103r0 PSM Test The traffic is 1500 bytes downlink only every 200ms and no packets were dropped PSM timeout was 50ms, 100ms and 200ms DTIM: 1 (every second beacon is received) or 3 (every fourth beacon is received) Slide 4Jarkko Kneckt, Nokia January 2015

Submission doc.: IEEE /0103r0 Simulation results for PSM Test The 1500 octets DL traffic was transmitted in active and in power save transition modes When PS-Timeout was 200ms, the STA was not able to sleep due to packet generation interval In shorter sleep periods, the STA slept to the next DTIM beacon Slide 5Jarkko Kneckt, Nokia January 2015 Non-AP STAAP STA Power save mechanis m DTIM PS- Timeout SleepListenRXTXSleepListenRXTX Active--0,00 %98,60 %1,37 %0,03 %0,00 %98,60 %0,03 %1,37 % PSM15077,73 %20,99 %1,21 %0,07 %0,00 %98,53 %0,07 %1,40 % PSM35077,83 %20,98 %1,12 %0,07 %0,00 %98,53 %0,07 %1,40 % PSM110065,23 %33,40 %1,30 %0,07 %0,00 %98,53 %0,07 %1,40 % PSM310065,33 %33,39 %1,21 %0,07 %0,00 %98,53 %0,07 %1,40 % PSM12000,00 %98,60 %1,37 %0,03 %0,00 %98,60 %0,03 %1,37 % PSM32000,00 %98,60 %1,37 %0,03 %0,00 %98,60 %0,03 %1,37 %

Submission doc.: IEEE /0103r0 U-APSD test The traffic is 120 bytes with CWmin=15 (assuming 24 kbps codec, once every 40 ms) for both uplink and downlink. This is similar to VoIP call. The non-AP STA transmits a trigger frame (UL VoIP packet) and the AP transmits a SP termination frame (DL VoIP packet) DTIM: 1 (every second beacon is received) or 3 (every fourth beacon is received) Slide 6Jarkko Kneckt, Nokia January 2015

Submission doc.: IEEE /0103r0 Simulation results for U-APSD Non-AP STA transmitted VoIP in Active mode and with U-APSD The results provide the operation percentages in specific PHY operation modes Slide 7Jarkko Kneckt, Nokia January 2015 Non-AP STAAP STA Power save mechanism DTIM PS- Timeout SleepListenRXTXSleepListenRXTX Active--0,00 %97,84 %1,25 %0,92 %0,00 %97,84 %0,87 %1,29 % U-APSD1-97,59 %0,48 %1,06 %0,87 %0,00 %97,88 %0,87 %1,25 % U-APSD3-97,73 %0,44 %0,96 %0,87 %0,00 %97,88 %0,87 %1,25 %

Submission doc.: IEEE /0103r0 Calculating Power Consumption Proposed Power State Parameters Slide 8Jarkko Kneckt, Nokia January 2015 Voltage = 1.1 V, Bandwidth = { 20 MHz }, Band = { 2.4 GHz, 5 GHz }, NSS = { 1 }, Number of TX/RX antennas = { 1 }, TX power per antenna = { 15 dBm } Power State Average Current Consumption [mA] Transm it [mA] 280 Receiv e [mA] 100 Listen [mA] 50 Sleep [mA] 0.003

Submission doc.: IEEE /0103r0January 2015 Jarkko Kneckt, NokiaSlide 9 Calculating Power Consumption Average Energy Per Bit Calculation Total energy: the new E i+1 value during the period (t i, t i+1 ) as follows: Average energy Per Bit:

Submission doc.: IEEE /0103r0 Power Consumption of U-ASPD and active mode, where Old (active mode) ”Average Energy per bit”: 2,42 µJ New(U-APSD) ”Average Energy per bit”: 0,17 µJ EER is 0,0709. Slide 10Jarkko Kneckt, Nokia January 2015

Submission doc.: IEEE /0103r0 Summary The percentages of PHY operation states operation should be measured for all simulations Energy per bit and PHY operation states statistics are key performance results, similarly as throughput statistics The r6 contains the simulation calibration results Tables from slides 5 and 7 should be added to be part of the simulation calibration results Slide 11Jarkko Kneckt, Nokia January 2015