Presentation is loading. Please wait.

Presentation is loading. Please wait.

Submission doc.: IEEE 802.11-15/0881r1 July 2015 Woojin Ahn, Yonsei Univ.Slide 1 Regarding buffer status of UL-STAs in UL- OFDMA Date: 2015-07-14 Authors:

Published byTrevor Lloyd Modified over 8 years ago

Similar presentations

Presentation on theme: "Submission doc.: IEEE 802.11-15/0881r1 July 2015 Woojin Ahn, Yonsei Univ.Slide 1 Regarding buffer status of UL-STAs in UL- OFDMA Date: 2015-07-14 Authors:"— Presentation transcript:

1 Submission doc.: IEEE 802.11-15/0881r1 July 2015 Woojin Ahn, Yonsei Univ.Slide 1 Regarding buffer status of UL-STAs in UL- OFDMA Date: 2015-07-14 Authors:

2 Submission doc.: IEEE 802.11-15/0881r1 Introduction Emphasizing the importance of buffer status information of UL-STAs in UL-OFDMA Discussing buffer status report methods using random access UL-OFDMA Slide 2Woojin Ahn, Yonsei Univ. July 2015

3 Submission doc.: IEEE 802.11-15/0881r1 Enhancing the efficiency of UL-OFDMA The more number of assigned STAs per UL-OFDMA session, the more efficiency can be achieved Contention isolation: OFDMA replaces multiple contention periods [1] AP assigns UL-STAs to available RUs with trigger frame It is desirable for AP to secure the information of UL-STAs’ buffer status information as much as possible Which STAs are having what kind of data? ID, Data length, (AC etc.) Methods for gathering buffer status information hasn’t been discussed very much Slide 3Woojin Ahn, Yonsei Univ. July 2015

4 Submission doc.: IEEE 802.11-15/0881r1 UL-OFDMA without buffer status information Without buffer status information Impossible to assign specific STA to RUs AP might open available RUs to let STAs access to randomly chosen RUs AP sends TF for random access with duration of random access UL-Data defined by AP Every UL-Data transmission should be end at the same time Random access of UL-Data might significantly degrade the effective TP of UL-OFDMA Slide 4Woojin Ahn, Yonsei Univ. July 2015

5 Submission doc.: IEEE 802.11-15/0881r1 UL-OFDMA without buffer status information Possibility of collisions and no-access The sparser the network, the more number of empty RUs will appear The denser the network, the more collision will occur Slide 5Woojin Ahn, Yonsei Univ. July 2015

6 Submission doc.: IEEE 802.11-15/0881r1 UL-OFDMA without buffer status information Depending on the variance of UL- Data length, the effective TP of UL- OFDMA might further decrease UL-STAs with shorter UL-Data length should add padding until the longest UL- Data ends The more padding, the less effective TP Slide 6Woojin Ahn, Yonsei Univ. July 2015

7 Submission doc.: IEEE 802.11-15/0881r1 UL-OFDMA without buffer status information In order to reduce the negative effect of padding, AP might force shorter UL-Data length Every UL-Data must be fit into the appointed UL-Data length The total amount of padding will decrease Overall system overhead will increase Requiring more number of UL-OFDMA sessions for the same amount UL-Data Slide 7Woojin Ahn, Yonsei Univ. July 2015

8 Submission doc.: IEEE 802.11-15/0881r1 Buffer status report for UL-OFDMA Buffer status information on AP side will provide more flexibility on RU assignment With STA ID (e.g., AID), collision and no-access RUs can be avoided With data length, padding can be minimized using RU granularity Conventional polling based buffer status report incurs too much overhead [2] 1-bit indication method (e.g., more data in MAC header) AP could obtain only UL-STA IDs, no data length – limitation on quality Only STAs who had communicated with AP in the past can be assigned – limitation on quantity The validity of information degrades as time passes It is necessary to consider appropriate buffer status reporting methods with reasonable overhead and delay bound Slide 8Woojin Ahn, Yonsei Univ. July 2015

9 Submission doc.: IEEE 802.11-15/0881r1 Buffer status report using UL-OFDMA Random Access (case 1) Buffer status report using UL-OFDMA Random Access UL-OFDMA random access have been introduced in the last meeting[4] Case 1: using novel frame format for Buffer Status Report (BSR) AP sends TF for BSR Request (BSRR) at the beginning of UL-OFDMA session Including BSRR indication (AID for BSRR), RUs for BSR Each UL-STA sends BSR through randomly chosen RU as a response of BSRR AP assigns RUs to UL-STA based on BSR Normal trigger frame for UL-Data will follow the BSR Triggering actual UL-Data transmission Slide 9Woojin Ahn, Yonsei Univ. July 2015

10 Submission doc.: IEEE 802.11-15/0881r1 Buffer status report using UL-OFDMA Random Access (case 1) More details on RA BSR A new frame format might be defined Recognizable only for ax-STAs Reducing redundant part of MAC header or PHY preamble Minimizing the loss of spectral efficiency from collision or no-access Containing only essential information for RU assignment ID, data length Other parameters (e.g., AC) might be included AP might open RUs for BSR over multiple channels Available channel with AP’s perspective Collided BSR could be regarded as contention failure The following TF might take a role of acknowledgement for BSR AP may choose whether it send BSRR or not Considering its UL-STA pool Slide 10Woojin Ahn, Yonsei Univ. July 2015

11 Submission doc.: IEEE 802.11-15/0881r1 Buffer status report using UL-OFDMA Random Access (case 2) Case 2: Inserting buffer status information into UL-Data Starting with short random access UL-OFDMA by TF of AP AP doesn’t limit the use of random access RU STAs could send either management frame or UL-Data AP defines the RA UL-Data length considering common UL short frames E.g., association, probe request UL STAs randomly accessing RUs insert remaining data length in their buffer into their transmitting UL-Data Existing header field can be reused (e.g., QoS control field in MAC header [3]) Inserting the length information after the body of UL-Data Slide 11Woojin Ahn, Yonsei Univ. July 2015

12 Submission doc.: IEEE 802.11-15/0881r1 Buffer status report using UL-OFDMA Random Access (case 2) (continued) Following the random access UL-OFDMA, AP triggers additional UL- OFDMA with specific RU assignment based on gathered buffer status information Slide 12Woojin Ahn, Yonsei Univ. July 2015

13 Submission doc.: IEEE 802.11-15/0881r1 Conclusion Insufficient information of UL-STAs buffer status might degrade the efficiency of UL-OFDMA In terms of overhead and effective TP It is necessary to consider appropriate buffer status reporting methods with reasonable overhead and delay bound Buffer status report based on random access could be considered as one of the solutions Slide 13Woojin Ahn, Yonsei Univ. July 2015

14 Submission doc.: IEEE 802.11-15/0881r1 Reference [1] 11-14-1442-01-00ax-considerations-on-dl-ofdma- control-mechanism [2] 11-14-1431-00-00ax-issues-on-ul-ofdma [3] 11-15-0608-01-00ax-regarding-trigger-frame-in-ul-mu Slide 14Woojin Ahn, Yonsei Univ. July 2015

15 Submission doc.: IEEE 802.11-15/0881r1 Straw poll #1 Do you agree with the necessity of buffer status report of UL-STAs as part of a UL-OFDMA procedure? Y N A Slide 15Woojin Ahn, Yonsei Univ. July 2015

16 Submission doc.: IEEE 802.11-15/0881r1 Straw poll #2 Do you agree with random access based UL-OFDMA for UL-STAs’ buffer status report? Y N A Slide 16Woojin Ahn, Yonsei Univ. July 2015

Download ppt "Submission doc.: IEEE 802.11-15/0881r1 July 2015 Woojin Ahn, Yonsei Univ.Slide 1 Regarding buffer status of UL-STAs in UL- OFDMA Date: 2015-07-14 Authors:"

Similar presentations

GroupID Concept for Downlink MU-MIMO Transmission

GroupID Concept for Downlink MU-MIMO Transmission
Doc.: IEEE 802.11-14/1190r2 September 2014 Submission Kaiying Lv (ZTE) Frame Exchange Control for Uplink Multi-user transmission Slide 1 Date: 2014-09-15.

Doc.: IEEE /1190r2 September 2014 Submission Kaiying Lv (ZTE) Frame Exchange Control for Uplink Multi-user transmission Slide 1 Date:
Short MAC Header Date: Authors: John Doe, Some Company

Short MAC Header Date: Authors: John Doe, Some Company
MAC Header Compression

MAC Header Compression
Submission doc.: IEEE 802.11-12/1357r3 Nov. 2012 Slide 1 Dynamic TIM and Page Segmentation Date: 2012-11-08 Authors: Weiping Sun, Seoul National University.

Submission doc.: IEEE /1357r3 Nov Slide 1 Dynamic TIM and Page Segmentation Date: Authors: Weiping Sun, Seoul National University.
Submission doc.: IEEE 802.11-15/0091r1 January 2015 Woojin Ahn, Yonsei UniversitySlide 1 UL-OFDMA procedure in IEEE 802.11ax Date: 2015-01-14 Authors:

Submission doc.: IEEE /0091r1 January 2015 Woojin Ahn, Yonsei UniversitySlide 1 UL-OFDMA procedure in IEEE ax Date: Authors:
Beamformed HE PPDU Date: Authors: May 2015 Month Year

Beamformed HE PPDU Date: Authors: May 2015 Month Year
Submission doc.: IEEE 802.11-15/0608r1 May 2015 Tomoko Adachi, ToshibaSlide 1 Regarding trigger frame in UL MU Date: 2015-05-10 Authors:

Submission doc.: IEEE /0608r1 May 2015 Tomoko Adachi, ToshibaSlide 1 Regarding trigger frame in UL MU Date: Authors:
Submission doc.: IEEE 11-15/0550r0 May 2015 K. Yunoki and B. Zhao, KDDI R&D Labs.Slide 1 L-Preamble Issues for UL-OFDMA Date: 2015-05-08 Authors:

Submission doc.: IEEE 11-15/0550r0 May 2015 K. Yunoki and B. Zhao, KDDI R&D Labs.Slide 1 L-Preamble Issues for UL-OFDMA Date: Authors:
Submission doc.: IEEE 802.11-15/0354r1 March 2015 Woojin Ahn, Yonsei Univ.Slide 1 Bandwidth granularity on UL-OFDMA data allocation Date: 2015-03-11 Authors:

Submission doc.: IEEE /0354r1 March 2015 Woojin Ahn, Yonsei Univ.Slide 1 Bandwidth granularity on UL-OFDMA data allocation Date: Authors:
Submission doc.: IEEE 802.11-15/0091r0 January 2015 Woojin Ahn, Yonsei Univ.Slide 1 UL-OFDMA procedure in IEEE 802.11ax Date: 2015-01-12 Authors:

Submission doc.: IEEE /0091r0 January 2015 Woojin Ahn, Yonsei Univ.Slide 1 UL-OFDMA procedure in IEEE ax Date: Authors:
Multi-STA Block ACK Protection

Multi-STA Block ACK Protection
Submission doc.: IEEE 802.11-14/1454r1 November 2014 Jarkko Kneckt (Nokia)Slide 1 802.11ax Power Save Discussion Date: 2014-11-03 Authors:

Submission doc.: IEEE /1454r1 November 2014 Jarkko Kneckt (Nokia)Slide ax Power Save Discussion Date: Authors:
Doc.: IEEE 802.11-14/1431r1 Submission September 2014 Issues on UL-OFDMA Transmission Date: 2014-11-03 Authors: Slide 1.

Doc.: IEEE /1431r1 Submission September 2014 Issues on UL-OFDMA Transmission Date: Authors: Slide 1.
Submission doc.: IEEE 802.11-14/0838r0 July 2014 Woojin Ahn, Yonsei Univ. Slide 1 Discussion on dual-link STR in IEEE 802.11ax Date: 2014-07-13 Authors:

Submission doc.: IEEE /0838r0 July 2014 Woojin Ahn, Yonsei Univ. Slide 1 Discussion on dual-link STR in IEEE ax Date: Authors:
Submission doc.: IEEE 802.11-15/0353r1 March 2015 Jinsoo Ahn, Yonsei UniversitySlide 1 OFDMA Non-contiguous Channel Utilization Date: 2015-03-10 Authors:

Submission doc.: IEEE /0353r1 March 2015 Jinsoo Ahn, Yonsei UniversitySlide 1 OFDMA Non-contiguous Channel Utilization Date: Authors:
Submission doc.: IEEE 802.11-15/0567r0 May 2015 Xiaofei Wang (InterDigital)Slide 1 Multi-STA BA for SU Transmissions Date: 2015-05-10 Authors:

Submission doc.: IEEE /0567r0 May 2015 Xiaofei Wang (InterDigital)Slide 1 Multi-STA BA for SU Transmissions Date: Authors:
Discussion on OFDMA in IEEE ax

Discussion on OFDMA in IEEE ax
Submission doc.: IEEE 802.11-14/1208r1 September 2014 Jinsoo Ahn, Yonsei UniversitySlide 1 MAC considerations on 802.11ax OFDMA Date: 2014-09-17 Authors:

Submission doc.: IEEE /1208r1 September 2014 Jinsoo Ahn, Yonsei UniversitySlide 1 MAC considerations on ax OFDMA Date: Authors:
Submission doc.: IEEE 802.11-14/1454r0 November 2014 Jarkko Kneckt (Nokia)Slide 1 802.11ax Power Save Discussion Date: 2014-11-03 Authors:

Submission doc.: IEEE /1454r0 November 2014 Jarkko Kneckt (Nokia)Slide ax Power Save Discussion Date: Authors:

Similar presentations

Ads by Google