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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.

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Presentation on theme: "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."— Presentation transcript:

1 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 Po-Kai HuangIntelpo-kai.huang@intel.com Robert StaceyIntelrobert.stacey@intel.com Rongzhen YangIntelrongzhen.yang@intel.com Qinghua LiIntelqinghua.li@intel.com

2 Copyright@2012, Intel Corporation. All rights reserved. 2 Intel Labs Wireless Communication Lab, Intel Labs 2 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Abstract It has been shown that with or without preamble error model, the deferral behavior is different for the stations [1]. This contribution focuses on the impact on system performance of MAC system simulation with preamble error model. Po-Kai Huang (Intel) Slide 2

3 Copyright@2012, Intel Corporation. All rights reserved. 3 Intel Labs Wireless Communication Lab, Intel Labs 3 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Preamble Error Model for 20MHz 1.Signal Detect: At the start of preamble, –If the signal strength is above -82 dBm*, receiver can start to detect the PPDU. 2.Preamble Error Detect: At the end of preamble, –In the preamble duration, if we have minimum SINR ≤0 dB, then the preamble has errors. Otherwise, the preamble is correct.* 3.Deferral Behavior: –If the preamble has errors, the receiver uses -62 dBm (Energy Detect) to determine if the medium is busy. –If the preamble is correct, then assume that receiver can choose to defer for the entire transmission duration or start to decode the entire PPDU *: The exact value or procedure are TBD and up for discussion Po-Kai Huang (Intel) Slide 3 Signal DetectPreamble Error Detect Preamble PPDU

4 Copyright@2012, Intel Corporation. All rights reserved. 4 Intel Labs Wireless Communication Lab, Intel Labs 4 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Packet Early Termination Expect some mechanisms in 11ax for packet early termination –For example, BSSID or color bits Assume that the termination decision is made at the end of preamble –If the preamble has errors, use ED to signal medium busy –If the preamble is correct, defer or decode the PPDU Packet Early Termination frees the receiver to decode the desired packet if possible. Po-Kai Huang (Intel) Slide 4

5 Copyright@2012, Intel Corporation. All rights reserved. 5 Intel Labs Wireless Communication Lab, Intel Labs 5 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Deferral Range of Signal Detect (SD) and Energy Detect (ED) Always defer for any transmissions in ED range Between ED and SD, may or may not defer for OBSS transmissions –Depending on whether the preamble is correct or not Po-Kai Huang (Intel) Slide 5 ED range SD range STA

6 Copyright@2012, Intel Corporation. All rights reserved. 6 Intel Labs Wireless Communication Lab, Intel Labs 6 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Simulation Time: 30s 10 STAs per apartment Power of STA: 15 dBm Power of AP: 20 dBm Genie MCS selection MPDU error based on SINR to PER mapping from LLS for channel D Adopt Packet Early Termination Preamble error if SINR ≤ 0 dB Simulation Setup – Scenario 1 [4] 2.4GHz with 20 MHz bandwidth TXOP: 4ms Path loss with 5 dB shadowing 1x1, STA antenna gain -2 dB Full buffer traffic MSDU size: 1500 bytes Three channels (random selection per AP) Po-Kai Huang (Intel) Slide 6 (Note that this figure is presented in 2D mode.)

7 Copyright@2012, Intel Corporation. All rights reserved. 7 Intel Labs Wireless Communication Lab, Intel Labs 7 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 OBSS Preamble Error Probability Po-Kai Huang (Intel) Slide 7 Scenario 1Average OBSS Preamble Error Probability over all STAs UL with RTS/CTS0.8184 UL0.9503 DL with RTS/CTS0.8143 DL0.8570

8 Copyright@2012, Intel Corporation. All rights reserved. 8 Intel Labs Wireless Communication Lab, Intel Labs 8 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Data Rate CDF All links have high SNR for MCS8, but simulation shows that they do not use MCS8 for transmissions due to high interference under ED. Po-Kai Huang (Intel) Slide 8 MCS8 MCS7 MCS6

9 Copyright@2012, Intel Corporation. All rights reserved. 9 Intel Labs Wireless Communication Lab, Intel Labs 9 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Reasons of High OBSS Preamble Error Probability in dense environment Po-Kai Huang (Intel) Slide 9 BSS 1 BSS 2 PPDU has higher signal strength than BSS 1 PPDU BSS 6, 7, 8 may not defer for BSS 1 BSS 1 PPDU has higher signal strength than BSS 2 PPDU BSS 3, 4, 5 may not defer for BSS 2 BSS 2 BSS 6 BSS 7 BSS 8 BSS 3 BSS 4 BSS 5 Coverage range of BSS 2 Coverage range of BSS 1

10 Copyright@2012, Intel Corporation. All rights reserved. 10 Intel Labs Wireless Communication Lab, Intel Labs 10 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Conclusion Preamble Error Model shall be adopted in the MAC simulator to observe the correct OBSS behaviors in dense environment ED threshold controls the performance for spatial reuse –The system already operates on aggressive CCA level in dense environment –Even though each pair has enough SNR for highest MCS, they do not use highest MCS most of the time Po-Kai Huang (Intel) Slide 10

11 Copyright@2012, Intel Corporation. All rights reserved. 11 Intel Labs Wireless Communication Lab, Intel Labs 11 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Straw Poll #1 Do you agree to define a preamble error model for MAC system simulations and integrated system simulations in evaluation methodology? Yes: No: Abstain: Po-Kai Huang (Intel) Slide 11

12 Copyright@2012, Intel Corporation. All rights reserved. 12 Intel Labs Wireless Communication Lab, Intel Labs 12 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Reference 1. 11-14-1187-01 The Effect of Preamble Error Model on MAC Simulator 2. 11-14-1192-03 Comparing MAC calibration results 3. 11-14-0800-22 Box 1 and Box 2 Calibration Results 4. 11-14-0980-04, Simulation Scenarios Po-Kai Huang (Intel) Slide 12

13 Copyright@2012, Intel Corporation. All rights reserved. 13 Intel Labs Wireless Communication Lab, Intel Labs 13 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Appendix - MCS table for Channel D with impairments MPDU size = 1500 bytes Po-Kai Huang (Intel) Slide 13 MCS 012345678 SINR(dB) 10.213.517.51923.52729.531.535

14 Copyright@2012, Intel Corporation. All rights reserved. 14 Intel Labs Wireless Communication Lab, Intel Labs 14 Intel Confidential Submission doc.: IEEE 802.11-14/1420r1 Nov 2014 Appendix – Genie MCS Selection Before a TX transmits packet, it checks the interference at the RX and uses the value to select the best MCS with 10% PER. Po-Kai Huang (Intel) Slide 14

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