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Doc.: IEEE 802.11-15/0319r1 Submission March 2015 Takeshi Itagaki, Sony CorporationSlide 1 Impact of TPC coupled to DSC for legacy unfairness issue Date:

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Presentation on theme: "Doc.: IEEE 802.11-15/0319r1 Submission March 2015 Takeshi Itagaki, Sony CorporationSlide 1 Impact of TPC coupled to DSC for legacy unfairness issue Date:"— Presentation transcript:

1 doc.: IEEE 802.11-15/0319r1 Submission March 2015 Takeshi Itagaki, Sony CorporationSlide 1 Impact of TPC coupled to DSC for legacy unfairness issue Date: 2015/03/09 Authors:

2 doc.: IEEE 802.11-15/0319r1 Submission Abstract Legacy fairness is an important requirement for 11ax. [1] [TGax R9] Legacy performances shall not be significantly degraded by operation in or in proximity of 11ax network. The uplink performance of DSC combined with BSS Coloring has been shown in [2] –BSS Coloring can increase the gain of DSC. –But the unfairness issue wasn’t resolved in the contribution In this submission, TPC coupled to DSC is considered and evaluated as a solution for recovering legacy fairness. It is shown that increasing system gain and maintaining the fairness can be satisfied simultaneously in SS3 by selecting appropriate TPC and DSC parameters. March 2015 Takeshi Itagaki, Sony CorporationSlide 2

3 doc.: IEEE 802.11-15/0319r1 Submission Basic Setup March 2015 Takeshi Itagaki, Sony CorporationSlide 3 AP (BSS Color filtering enabled) AP (BSS Color filtering enabled) AX STA (DSC enabled, TPC on/off) AX STA (DSC enabled, TPC on/off) In order to increase Tx occasion In order to recover the fairness of Legacy STAs In order to increase desired Rx occasion Uplink Traffic

4 doc.: IEEE 802.11-15/0319r1 Submission Basic Setup March 2015 Takeshi Itagaki, Sony CorporationSlide 4 AP (BSS Color filtering enabled) AP (BSS Color filtering enabled) AX STA (DSC enabled, TPC on/off) AX STA (DSC enabled, TPC on/off) In order to increase Tx occasion In order to recover the fairness of Legacy STAs In order to increase desired Rx occasion Uplink Traffic w/o Color filtering at AP w/o Color filtering at AP Rx Interference Packet Tx to AP Detect -> start Rx Detect -> start Rx Not detect due to DSC -> can transmit simultaneously Not detect due to DSC -> can transmit simultaneously x Interference Packet from OBSS Cannot receive no matter how large the SINR is ! time AP AX STA Terminate Rx at PLCP -> can wait desired packet Terminate Rx at PLCP -> can wait desired packet w/ Color filtering at AP w/ Color filtering at AP Tx to AP Not detect due to DSC -> can transmit simultaneously Not detect due to DSC -> can transmit simultaneously Interference Packet from OBSS time AP AX STA Rx desired packet * Although using DSC at AP side also increase Rx opportunity, it’s difficult to select appropriate threshold dynamically. * So we use only COLOR in this submission. Why increasing desired Rx occasion is needed at AP ? -> To avoid wasting increased Tx occasion at STA

5 doc.: IEEE 802.11-15/0319r1 Submission DSC Algorithm STA: Beacon RSSI based algorithm with Margin parameter[3] –CCA-SD = min(L, (RSSI Beacon – M)) –RSSI Beacon : RSSI of Beacon frame from associated AP [dBm] –L: Upper Limit of CCA-SD [dB] –M: Margin [dB] –CCA-ED = -62dBm AP: Not applied –CCA-SD = -82dBm –CCA-ED = -62dBm March 2015 Takeshi Itagaki, Sony CorporationSlide 5 [NOTE] The term “CCA-ED” represents “20 dB above the minimum modulation and coding rate sensitivity” in this material.

6 doc.: IEEE 802.11-15/0319r1 Submission TPC Algorithm STA: Basically reduce TxPower by amount of raising CCA-SD by DSC –Also adjust by parameter α. –TxPower = min(P DefaultTx, (P DefaultTx – D + α)) –P DefaultTx : Default TxPower of STA = +15 [dBm] –D: Amount of raising CCA-SD by DSC [dB] i.e. D = CCA-SD RaisedByDSC – (–82dBm) –α: Adjustment factor [dB] AP: Not applied –TxPower = +23 dBm March 2015 Takeshi Itagaki, Sony CorporationSlide 6

7 doc.: IEEE 802.11-15/0319r1 Submission Relation of DSC/TPC parameters March 2015 Takeshi Itagaki, Sony CorporationSlide 7 AP STA +23dBm (about -35dBm in this case) -82dBm +15dBm Example of SS3 (2412MHz) Beacon TxPower CCA-SD

8 doc.: IEEE 802.11-15/0319r1 Submission Relation of DSC/TPC parameters March 2015 Takeshi Itagaki, Sony CorporationSlide 8 AP STA +23dBm (about -35dBm in this case) -82dBm +15dBm DSC Margin CCA-SD D: Amount of raising CCA-SD Example of SS3 (2412MHz) Beacon TxPower

9 doc.: IEEE 802.11-15/0319r1 Submission Relation of DSC/TPC parameters March 2015 Takeshi Itagaki, Sony CorporationSlide 9 AP STA +23dBm (about -35dBm in this case) -82dBm +15dBm DSC Margin CCA-SD D: Amount of raising CCA-SD Reduce by D. Example of SS3 (2412MHz) Beacon TxPower

10 doc.: IEEE 802.11-15/0319r1 Submission Relation of DSC/TPC parameters March 2015 Takeshi Itagaki, Sony CorporationSlide 10 AP STA +23dBm (about -35dBm in this case) -82dBm +15dBm DSC Margin CCA-SD Further adjust by α. (parameter) D: Amount of raising CCA-SD Reduce by D. Example of SS3 (2412MHz) Beacon Data TxPower DSC Margin and Adjustment value are varied at this time.

11 doc.: IEEE 802.11-15/0319r1 Submission Simulation Conditions Scenario-3 –19-cell model with wrap-around (Reuse=3) Traffic model –10 uplink UDP Flows/BSS (Full-buffer condition) –No downlink traffic MCS selection –Goodput maximizing MCS based on SINR by training[4] CCA-SD control algorithm –DSC : Beacon RSSI based algorithm[3] TxPower control algorithm –DSC-linked control BSS Coloring mechanism[5] –Enabled. (at AP and AX STAs) Parameters –DSC-margin and TPC-alpha See backup slide for details Takeshi Itagaki, Sony CorporationSlide 11 30m 10m March 2015

12 doc.: IEEE 802.11-15/0319r1 Submission DSC performance (w/o TPC) March 2015 Takeshi Itagaki, Sony CorporationSlide 12 Low CCA-SD High System throughput can be improved as DSC margin decreases. DSC also causes legacy unfairness. System throughput can be improved as DSC margin decreases. DSC also causes legacy unfairness. BSS total throughput BSS total throughput Per STA throughput Per STA throughput (No DSC/Color) The performances with TPC for margin=35, 40 are shown in next slide.

13 doc.: IEEE 802.11-15/0319r1 Submission DSC performance (w/ TPC) March 2015 Takeshi Itagaki, Sony CorporationSlide 13 TPC coupled to DSC can recover fairness for Legacy STAs in return for decreasing certain system gain. BSS total throughput BSS total throughput Per Legacy STA throughput (ave.) Per Legacy STA throughput (ave.) High TxPower Low Original performance Original performance Increasing system gain and maintaining the fairness for Legacy STAs can be satisfied simultaneously by selecting appropriate M and α. (e.g. M=40dB, α=5~10dB) Increasing system gain and maintaining the fairness for Legacy STAs can be satisfied simultaneously by selecting appropriate M and α. (e.g. M=40dB, α=5~10dB) Remaining gain Recovering fairness Recovering fairness * When DSC margin M < 35, system gain disappears when legacy fairness is recovered in this condition. [NOTE] M in the graph represents the margin value of DSC.

14 doc.: IEEE 802.11-15/0319r1 Submission Conclusion TPC coupled to DSC is considered and evaluated as a solution for recovering legacy fairness. –Increasing system gain and maintaining the fairness can be satisfied simultaneously in SS3 by selecting appropriate TPC and DSC parameters. Next steps –Further optimization of DSC/TPC control algorithm –Evaluation of other penalty method coupled to DSC but TPC (e.g. EDCA parameter) March 2015 Takeshi Itagaki, Sony CorporationSlide 14

15 doc.: IEEE 802.11-15/0319r1 Submission References 1.Lei Wang, Marvell, 11-14-1009-02-00ax-proposed-802- 11ax-functional-requirements 2.Masahito Mori, Sony, 11-14-1403-00-00ax- Performance Analysis of BSS Color and DSC 3.Graham Smith, DSP Group, 11-13-1290-01 Dynamic Sensitivity Control for HEW 4.Gwen Barriac, Qualcomm, 11-14-0851-02-00ax-rate- control-for-mac-and-integrated-system-simulations 5.Matthew Fischer, Broadcom, 11-13-1207-01-00ah- partial-aid-color-bits 6.William Carney, Sony, 11-14-0854-00-00ax-dsc-and- legacy-coexistence March 2015 Takeshi Itagaki, Sony CorporationSlide 15

16 doc.: IEEE 802.11-15/0319r1 Submission Appendix March 2015 Takeshi Itagaki, Sony CorporationSlide 16

17 doc.: IEEE 802.11-15/0319r1 Submission Simulation Setup details Takeshi Itagaki, Sony CorporationSlide 17 Node(AP x 1, STA x 10) x 19 (Half of STAs are AX STA, and others are Legacy STA) Num of Drops [times]5 Traffic Model & Load & DurationUplink CBR UDP 30Mbps (from all STA -> Full Buffer condition), 20sec Access CategoryAC_BE CWmin=15, CWmax=1023, AIFSN=3, TXOP limit=0 Tx Power [dBm]AP: +23, AX STA: Variable by TPC, Legacy STA: +15 MCS SelectionGoodput maximizing MCS based on Training (MCS0 ~ 7) [4] Packet Length [byte](MPDU, MSDU, APP)=(1030, 1000, 972) Fixed L2 Retry10 Ack RateLegacy 6.0Mbps RTS/CTSOFF Max Aggregation Size(A-MPDU, A-MSDU)=(8KB, NA) NF [dB]7 ChannelTGn Channel D (pathloss, shadowing, fading) Channel Setting [MHz](CenterFreq, BW)=(2412, 20) CCA-SD [dBm]AP: -82, AX STA: Variable by DSC[3], Legacy STA: -82 CCA-ED [dBm]-62 [NOTE] The term “CCA-ED” represents “20 dB above the minimum modulation and coding rate sensitivity” in this material. Det. Cancel on PLCP errEnable (Error performance is shown in slide#18) DSC / TPC algorithmSee slide #4 and #5 BSS COLOR operationAP and AX STA can handle COLOR information. (adding/filtering) STAs cannot filter packets that has no COLOR information (i.e. flow from Legacy STAs). March 2015

18 doc.: IEEE 802.11-15/0319r1 Submission Simulation Setup details Takeshi Itagaki, Sony CorporationSlide 18 March 2015

19 doc.: IEEE 802.11-15/0319r1 Submission DSC performance (w/o TPC, 5%tile) March 2015 Takeshi Itagaki, Sony CorporationSlide 19 Low CCA-SD High All STAs AX/Legacy STAs AX/Legacy STAs (No DSC/Color)

20 doc.: IEEE 802.11-15/0319r1 Submission DSC performance (w/ TPC, 5%tile) March 2015 Slide 20 High TxPower Low Original performance Original performance [NOTE] M in the graph represents the margin value of DSC. All STAs Legacy STAs Legacy STAs

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