Presentation is loading. Please wait.

Presentation is loading. Please wait.

Doc.: IEEE 802.11-14/0889r0 Submission June 2014 Nihar Jindal, Broadcom Performance Gains from CCA Optimization Date: 2014-07-15 Authors: Slide 1.

Published byArron Baker Modified over 8 years ago

Similar presentations

Presentation on theme: "Doc.: IEEE 802.11-14/0889r0 Submission June 2014 Nihar Jindal, Broadcom Performance Gains from CCA Optimization Date: 2014-07-15 Authors: Slide 1."— Presentation transcript:

1 doc.: IEEE 802.11-14/0889r0 Submission June 2014 Nihar Jindal, Broadcom Performance Gains from CCA Optimization Date: 2014-07-15 Authors: Slide 1

2 doc.: IEEE 802.11-14/0889r0 Submission Overview Earlier IEEE contributions [1][2] provided PHY system simulation results showing performance gains (mean and 5% per-STA throughput) from CCA optimization, for simulation scenario 1 Here we provide results showing significant CCA optimization gains for simulation scenarios 1, 2, and 3, with a focus on scenario 2 June 2014 Nihar Jindal, BroadcomSlide 2

3 doc.: IEEE 802.11-14/0889r0 Submission Simulation Parameters 26 dBm AP, 18 dBm STA –All results are for 1x1 Chose above numbers to reflect 4 antenna AP with 20 dBm per AP antenna and 2 antenna STA with 15 dBm per antenna Downlink only 5 GHz, 80 Mhz channels –NF = 7 dB -> noise floor of -88 dBm Effective SNR computed using Shannon capacity –Essentially equal to geometric mean of SNR (i.e., linear average of per-tone dB SINR) Genie MCS, with following required SNR’s per MCS: June 2014 Nihar Jindal, BroadcomSlide 3 MCS0123456789 SNR (dB)3.27.09.611.815.518.820.421.925.027.0

4 doc.: IEEE 802.11-14/0889r0 Submission Scenario 2: Wireless Office 8 offices in 4x2 configuration, and each office has 4 AP’s (uniformly spaced) and 128 STAs (2 STAs per cube, 64 cubes per office) 5 GHz, 80 MHz, 4 channels with fixed channelization pattern per office –11nD PL + 11nD NLOS multipath + 4 dB iid shadow + 7 dB wall June 2014 Nihar Jindal, BroadcomSlide 4 4x2 office layout Office layout (4 AP’s, 64 cubicles)

5 doc.: IEEE 802.11-14/0889r0 Submission S2: Performance vs. CCA (AWGN, no shadow) June 2014 Nihar Jindal, BroadcomSlide 5 Mean and 5% throughput monotonically increase with CCA, and see gains of 3.5X and 4X, respectively

6 doc.: IEEE 802.11-14/0889r0 Submission S2: Geometry Due to fixed channelization and fixed AP locations, distance between co- channel AP’s is 20m (+ 7 dB/wall) -> 84 dB PL –1 wall separated APs: -58 dBm, Diagonally separated: -70 dBm –2 wall: -76 dBm, 2 wall + diagonal: -84.6 dBm –3 wall: -89 dBm, 3 wall + diagonal: -97 dBm Distance from STA to nearest AP ranges from 2.1m to 6.67m –Vertical distance is always 1.5m due to AP on ceiling (3m) versus STA at 1m –Corresponding PL range is 53 dB to 63 dB, so RX power range is -27 dBm to -37 dBm 4 distinct CCA regimes with 18.75%, 25%, 45%, and 100% of AP’s on –Worst-case SINR with all AP’s on is 14.4 dB June 2014 Nihar Jindal, BroadcomSlide 6 34 1 2 34 1 2 34 1 2 34 1 2 34 1 2 34 1 2 34 1 2 34 1 2 20m

7 doc.: IEEE 802.11-14/0889r0 Submission S2: Effect of Shadowing and Fading June 2014 Nihar Jindal, BroadcomSlide 7 Shadowing and fading smooth out curves, but trends are similar to AWGN no shadowing –Key difference is in 5% tput: for no shadowing increases monotonically with CCA, whereas with shadowing/fading see a peak in 5% tput around -70 dBm –Shadowing rather than fading is the big difference maker

8 doc.: IEEE 802.11-14/0889r0 Submission Scenario 3: Indoor Small BSS Hexagonal cells with ICD = 17.32 m (R = 10m) 11nD PL (bp = 10m) + 11nD NLOS multipath + 4 dB iid shadowing –Identical to S2 Reuse 3 and reuse1 June 2014 Nihar Jindal, BroadcomSlide 8 BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSBS BSBS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS BSSBSS Reuse 3 Reuse 1

9 doc.: IEEE 802.11-14/0889r0 Submission S3 (reuse 3): Performance vs. CCA June 2014 Nihar Jindal, BroadcomSlide 9 Similar to S2, AWGN no shadowing displays monotonically increasing mean and 5% tput, but the addition of shadowing/fading leads to 5% tput peaking around -70 dBm –Both S2 and S3 (reuse3) have fixed reuse patterns that lead to a guaranteed (in absence of shadowing) high SINR at cell edge

10 doc.: IEEE 802.11-14/0889r0 Submission S3 (reuse 1): Performance vs. CCA June 2014 Nihar Jindal, BroadcomSlide 10 >2X gains in mean tput, but smaller gain in 5% tput 5% tput drops to zero for very aggressive CCA threshold

11 doc.: IEEE 802.11-14/0889r0 Submission Scenario 1 - Residential 100 apartments, 20 per floor (2x10), 5 floors. 10x10x3m dimensions 5 GHz, each BSS randomly picks 1 of 3 80 MHz channels One AP and 10 STA’s per apartment –STA always associates to AP inside same apartment –Every device randomly located within apartment 11nB PL + 11nD NLOS multi-path + 4 dB iid shadow –5 dB loss per wall (linear sum), 18.3 dB/floor (nonlinear sum) June 2014 Nihar Jindal, BroadcomSlide 11

12 doc.: IEEE 802.11-14/0889r0 Submission S1 with 3 channels: Performance vs. CCA June 2014 Nihar Jindal, BroadcomSlide 12 Mean tput peaks with CCA around -55 dBm, whereas 5% tput peaks at ~ -70 dBm

13 doc.: IEEE 802.11-14/0889r0 Submission S1 with 1 channel: Performance vs. CCA June 2014 Nihar Jindal, BroadcomSlide 13 Similar trends as 3 channel S1, but even larger gains

14 doc.: IEEE 802.11-14/0889r0 Submission Summary CCA optimization provides very significant gains for simulation scenarios 1, 2, and 3, in terms of mean and 5% throughput –2X or greater feasible in many scenarios –Scenario 4 still under investigation, although expect smaller gains due to large cell size Optimal CCA threshold for 5% throughput is generally 10-20 dB lower than optimal threshold for mean throughput –Overly aggressive reuse can benefit BSS-interior users at the expense of BSS- exterior users Dynamic CCA threshold selection still an open problem Because interference-limited, changing bandwidth or band has little effect on results: –Going from 5G to 2.4G leads to ~ 6 dB less path loss, which essentially shifts performance vs. CCA curves by 6 dB June 2014 Nihar Jindal, BroadcomSlide 14

15 doc.: IEEE 802.11-14/0889r0 Submission References [1] “Improved Spatial Reuse Feasibility – Part I”, IEEE 802.11-14/0082r0 [2] “Improved Spatial Reuse Feasibility – Part II”, IEEE 802.11-14/0083r0 June 2014 Nihar Jindal, BroadcomSlide 15

Download ppt "Doc.: IEEE 802.11-14/0889r0 Submission June 2014 Nihar Jindal, Broadcom Performance Gains from CCA Optimization Date: 2014-07-15 Authors: Slide 1."

Similar presentations

Doc.: IEEE 802.11-14/0083r0 Submission January 2014 Nihar Jindal, Broadcom Improved Spatial Reuse Feasibility – Part II Date: 2014-01-20 Authors: Slide.

Doc.: IEEE /0083r0 Submission January 2014 Nihar Jindal, Broadcom Improved Spatial Reuse Feasibility – Part II Date: Authors: Slide.
Doc.: IEEE 802.11-09/1234r0 Submission November 2009 Sameer Vermani, QualcommSlide 1 Interference Cancellation for Downlink MU-MIMO Date: 2009-11-17 Authors:

Doc.: IEEE /1234r0 Submission November 2009 Sameer Vermani, QualcommSlide 1 Interference Cancellation for Downlink MU-MIMO Date: Authors:
Doc.: IEEE 802.11-13/1387r0 Submission Nov. 2013 Yan Zhang, et. Al.Slide 1 HEW channel modeling for system level simulation Date: 2013-11-11 Authors:

Doc.: IEEE /1387r0 Submission Nov Yan Zhang, et. Al.Slide 1 HEW channel modeling for system level simulation Date: Authors:
Doc.: IEEE 802.11-14/0116r1 SubmissionYakun Sun, et. al. (Marvell)Slide 1 Long-Term SINR Calibration for System Simulation Date: 2014-01-20 Authors: NameAffiliationsAddressPhoneemail.

Doc.: IEEE /0116r1 SubmissionYakun Sun, et. al. (Marvell)Slide 1 Long-Term SINR Calibration for System Simulation Date: Authors: NameAffiliationsAddressPhone .
Submission doc.: IEEE 802.11-14/1225r1 Considerations on CCA for OBSS Opearation in 802.11ax Date: 2014-09-11 Slide 1Huawei Authors:

Submission doc.: IEEE /1225r1 Considerations on CCA for OBSS Opearation in ax Date: Slide 1Huawei Authors:
Doc.: IEEE 802.11-11/0436r0 Submission February 2011 Mediatek Path Loss and Delay Spread Models for 11ah Date: 2011-03-14 Authors: Slide 1.

Doc.: IEEE /0436r0 Submission February 2011 Mediatek Path Loss and Delay Spread Models for 11ah Date: Authors: Slide 1.
Doc.: IEEE 802.11-15/0630r0 Submission May 2015 Intel CorporationSlide 1 Verification of IEEE 802.11ad Channel Model for Enterprise Cubical Environment.

Doc.: IEEE /0630r0 Submission May 2015 Intel CorporationSlide 1 Verification of IEEE ad Channel Model for Enterprise Cubical Environment.
Discussion on The Receiver Behavior for DSC/CCAC with BSS Color

Discussion on The Receiver Behavior for DSC/CCAC with BSS Color
Submission doc.: IEEE 802.11-15/0374r0 Mar 2015 John Son, WILUS InstituteSlide 1 Further Considerations on Legacy Fairness with Enhanced CCA Date: 2015-03-09.

Submission doc.: IEEE /0374r0 Mar 2015 John Son, WILUS InstituteSlide 1 Further Considerations on Legacy Fairness with Enhanced CCA Date:
Submission doc.: IEEE 11-15/613r0 May 2015 Chinghwa Yu et al, MediaTek Inc.Slide 1 Box 5 Calibration Result Date: 2015-05-08 Authors:

Submission doc.: IEEE 11-15/613r0 May 2015 Chinghwa Yu et al, MediaTek Inc.Slide 1 Box 5 Calibration Result Date: Authors:
Doc.: IEEE 802.11-15/568r0 Submission Frequency Selective Scheduling (FSS) for TGax OFDMA May 2015 Slide 1 Date: 2015-05-11 Authors: Kome Oteri (InterDigital)

Doc.: IEEE /568r0 Submission Frequency Selective Scheduling (FSS) for TGax OFDMA May 2015 Slide 1 Date: Authors: Kome Oteri (InterDigital)
Doc.: IEEE 802.11-15-0318 Amin Jafarian, Newracom 1 CCA Regime Evaluation Revisited March 2015 NameAffiliationsAddressPhone Amin

Doc.: IEEE Amin Jafarian, Newracom 1 CCA Regime Evaluation Revisited March 2015 NameAffiliationsAddressPhone Amin
Doc.: IEEE 802.11-14/0861r0 SubmissionSayantan Choudhury Impact of CCA adaptation on spatial reuse in dense residential scenario Date: 2014-07-14 Authors:

Doc.: IEEE /0861r0 SubmissionSayantan Choudhury Impact of CCA adaptation on spatial reuse in dense residential scenario Date: Authors:
Doc.: IEEE 802.11-14/1207r1 Submission Imad Jamil (Orange)Slide 1 OBSS reuse mechanism which preserves fairness Date: 2014-09-15 Authors: September 2014.

Doc.: IEEE /1207r1 Submission Imad Jamil (Orange)Slide 1 OBSS reuse mechanism which preserves fairness Date: Authors: September 2014.
Doc.: IEEE 802.11-15-0318r1 Amin Jafarian, Newracom 1 CCA Regime Evaluation Revisited March 2015 NameAffiliationsAddressPhone Amin

Doc.: IEEE r1 Amin Jafarian, Newracom 1 CCA Regime Evaluation Revisited March 2015 NameAffiliationsAddressPhone Amin
Submission doc.: IEEE 802.11-15/0085r1 Jan 2015 John Son, WILUS InstituteSlide 1 Legacy Fairness Issues of Enhanced CCA Date: 2015-01-12 Authors:

Submission doc.: IEEE /0085r1 Jan 2015 John Son, WILUS InstituteSlide 1 Legacy Fairness Issues of Enhanced CCA Date: Authors:
Doc.: IEEE 802.11-14/1443r0 SubmissionEsa Tuomaala Adapting CCA and Receiver Sensitivity Date: 2014-11-03 Authors: Slide 1 November 2014.

Doc.: IEEE /1443r0 SubmissionEsa Tuomaala Adapting CCA and Receiver Sensitivity Date: Authors: Slide 1 November 2014.
Doc.: IEEE 802.11-14/1420r1Nov 2014 Submission Po-Kai Huang (Intel) Slide 1 The Impact of Preamble Error on MAC System Performance Date: 2014-11-03 NameAffiliationsAddressPhoneEmail.

Doc.: IEEE /1420r1Nov 2014 Submission Po-Kai Huang (Intel) Slide 1 The Impact of Preamble Error on MAC System Performance Date: NameAffiliationsAddressPhone .
Doc.: IEEE 802.11-14/1187r1Sep 2014 Submission Po-Kai Huang (Intel) Slide 1 The Effect of Preamble Error Model on MAC Simulator Date: 2014-09-11 NameAffiliationsAddressPhoneEmail.

Doc.: IEEE /1187r1Sep 2014 Submission Po-Kai Huang (Intel) Slide 1 The Effect of Preamble Error Model on MAC Simulator Date: NameAffiliationsAddressPhone .
Submission doc.: IEEE 802.11-14/0833r0 July 2014 Pengfei Xia, Interdigital CommunicationsSlide 1 Residential Scenario Sensitivity and Transmit Power Control.

Submission doc.: IEEE /0833r0 July 2014 Pengfei Xia, Interdigital CommunicationsSlide 1 Residential Scenario Sensitivity and Transmit Power Control.

Similar presentations

Ads by Google