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Doc.: IEEE 802.11-15/1057r0 Submission Multiple Resource Unit Allocation for TGax OFDMA Sept 2015 Slide 1 Date: 2015-09-12 Authors: Kome Oteri (InterDigital)

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Presentation on theme: "Doc.: IEEE 802.11-15/1057r0 Submission Multiple Resource Unit Allocation for TGax OFDMA Sept 2015 Slide 1 Date: 2015-09-12 Authors: Kome Oteri (InterDigital)"— Presentation transcript:

1 doc.: IEEE 802.11-15/1057r0 Submission Multiple Resource Unit Allocation for TGax OFDMA Sept 2015 Slide 1 Date: 2015-09-12 Authors: Kome Oteri (InterDigital)

2 doc.: IEEE 802.11-15/1057r0 Submission Outline Motivation Existing design and open questions System Level Simulation assumptions and results Link Level Simulation assumptions and results Conclusion Kome Oteri (InterDigital)Slide 2 Sept 2015

3 doc.: IEEE 802.11-15/1057r0 Submission Motivation Show potential benefits of multiple RU allocation over single user allocation via system simulations. –Identify need for updated interleaver design to enable multiple RU allocation Show potential benefits of non-contiguous multiple RU allocation over contiguous multiple RU allocations via system and link level simulations Kome Oteri (InterDigital) Slide 3 Sept 2015

4 doc.: IEEE 802.11-15/1057r0 Submission OFDMA Numerology and Structure [1] –PHY #10: Define 20MHz, 40 MHz, 80MHz, 160MHz / 80MHz + 80MHz OFDMA building blocks Interleaver and Tone Mapper for OFDMA [2] –PHY #33: The BCC interleaver and LDPC tone mapper parameters to be defined in the table below Existing Design BCC Interleaver and LDPC Tone Mapper Numerology for 20MHz Sept 2015 Slide 4 Kome Oteri (InterDigital)

5 doc.: IEEE 802.11-15/1057r0 Submission Open Questions Q: Should we allocate more than one RU per user ? Q: If multiple RUs can be allocated per user, how does this affect the interleaver design? –Observation: current design does not take all multiple RU allocation scenarios into consideration e.g. 3 x 26-tone RU allocation Q: If multiple RUs per user are allocated, should those RUs be contiguous or non-contiguous ? –DL OFDMA Signalling [3] SP1: Do you think we should be able to express non-contiguous RU allocation? Y:N:A = 46:22:54 Kome Oteri (InterDigital) Slide 5 Sept 2015

6 doc.: IEEE 802.11-15/1057r0 Submission Study Outline Study system throughput performance in SS1 and SS3 for –Single RU allocation –Multiple RU allocation : contiguous –Multiple RU allocation : non-contiguous Study link level performance for MCS 7 in Channel D –Multiple RU allocation : contiguous –Multiple RU allocation : non-contiguous Kome Oteri (InterDigital) Slide 6 Sept 2015

7 doc.: IEEE 802.11-15/1057r0 Submission System Throughput Simulation Assumptions No MAC protocol overhead assumed STAs are located based on specific TGax simulation scenarios [4] Kome Oteri (InterDigital) Slide 7 Table derived from [8] 20 MHz 80 MHz Sept 2015

8 doc.: IEEE 802.11-15/1057r0 Submission Scheduler (20 MHz) Resource Allocation for Non-contiguous Case Resource allocation for Contiguous Case Resource allocation for single RU allocation 20 MHz Numerology Sept 2015 Slide 8 Kome Oteri (InterDigital)

9 doc.: IEEE 802.11-15/1057r0 Submission 20 MHz Results (System Simulations) Performance gains for multiple RU non-contiguous allocation over single RU and multiple RU contiguous allocation can be observed Sept 2015 Slide 9 bps Legend sRU: Single RU Allocation C: Multiple RU Contiguous Allocation NC: Multiple RU Non-contiguous Allocation Kome Oteri (InterDigital)

10 doc.: IEEE 802.11-15/1057r0 Submission 80 MHz Results (System Simulations) Larger gains for multiple RU non-contiguous allocation over single RU and multiple RU contiguous allocation over larger bandwidth can be observed Sept 2015 Slide 10 bps Legend sRU: Single RU Allocation C: Multiple RU Contiguous Allocation NC: Multiple RU Non-contiguous Allocation Kome Oteri (InterDigital)

11 doc.: IEEE 802.11-15/1057r0 SubmissionSlide 11 Link Level Simulation Assumptions Sept 2015 Kome Oteri (InterDigital)

12 doc.: IEEE 802.11-15/1057r0 Submission Link Level Contiguous/Non-Contiguous Allocation Kome Oteri (InterDigital)Slide 12 Gains observed for non-contiguous over contiguous at the link level Sept 2015

13 doc.: IEEE 802.11-15/1057r0 Submission Multiple RU Interleaving Q: How do we perform interleaving in multiple RU allocation ? –Reuse design in [2] with a multiplexer (S/P) and de-multiplexer (P/S) Kome Oteri (InterDigital)Slide 13 Sept 2015

14 doc.: IEEE 802.11-15/1057r0 Submission Conclusions Multiple RU allocation shows benefits over single RU allocation in some system level simulation scenarios (SS3) Non-contiguous multiple RU allocation shows benefits over contiguous multiple RU allocation The interleaver design should be updated to allow for multiple RU allocation Kome Oteri (InterDigital)Slide 14 Sept 2015

15 doc.: IEEE 802.11-15/1057r0 Submission Straw Poll #1 Do you agree to add to the TG Specification Framework? The amendment shall allow multiple RUs to be allocated to a single user Y/N/A Kome Oteri (InterDigital)Slide 15 Sept 2015

16 doc.: IEEE 802.11-15/1057r0 Submission Straw Poll #2 Do you agree with the following? The design of the interleaver shall be updated to allow for multiple RU allocations that are not captured in the current interleaver design Y/N/A Kome Oteri (InterDigital)Slide 16 Sept 2015

17 doc.: IEEE 802.11-15/1057r0 Submission Straw Poll #3 Do you agree to add to the TG Specification Framework? The amendment shall allow for non-contiguous allocation of multiple RUs to a single user Y/N/A Kome Oteri (InterDigital)Slide 17 Sept 2015

18 doc.: IEEE 802.11-15/1057r0 Submission References 1.11-15-0330-05-00ax-ofdma-numerology-and-structure.pptx 2.11-15-0816-00-00ax-interleaver-and-tone-mapper-for-ofdma.pptx 3.11-15-0854-02-00ax-dl-ofdma-signalling.pptx 4.11-14-0980-14-00ax-simulation-scenarios.docx 5.11-14-0882-04-00ax-tgax-channel-model-document.docx Kome Oteri (InterDigital)Slide 18 Sept 2015

19 doc.: IEEE 802.11-15/1057r0 Submission Additional Material Slide 19Kome Oteri (InterDigital) Sept 2015

20 doc.: IEEE 802.11-15/1057r0 Submission Granularity Definition Other users may use different granularity. @ Receiver: Instantaneous rates on the sub-channels (based on feedback granularity (FG)) are calculated and fed back to the transmitter. @ Transmitter: Instantaneous rates on the RUs (based on RU granularity (RG)) are calculated for each station and proportional fair scheduling is performed. Slide 20Kome Oteri (InterDigital) Sept 2015

21 doc.: IEEE 802.11-15/1057r0 Submission Gain Definitions Kome Oteri (InterDigital)Slide 21 Ref:C %28.5 %29.5 %1.9 Ref:R NC: Non-contiguous allocationC: Contiguous allocationR: Random allocation Sept 2015

22 doc.: IEEE 802.11-15/1057r0 Submission SISO Result Details Kome Oteri (InterDigital)Slide 22 NC: Non-contiguous allocationC: Contiguous allocationR: Random allocation Sept 2015

23 doc.: IEEE 802.11-15/1057r0 Submission MIMO Result Details Kome Oteri (InterDigital)Slide 23 NC: Non-contiguous allocationC: Contiguous allocationR: Random allocation Sept 2015

24 doc.: IEEE 802.11-15/1057r0 Submission Simulation Methodology of System Throughput Obtain per tone SINR of STAs based on path loss and shadowing of specific simulation scenario [12] and fading channel [2] Estimate effective SINR of sub-channels based on the specific numerology using the capacity mapping in [11] at the receiver Send these to the transmitter using the desired FG Perform proportional fair scheduling at the transmitter based on effective SINR of different sub-channels at the desired RG [9] Assign users to sub-channels Estimate PHY layer system throughput based on capacity of chosen users Average over multiple drops Kome Oteri (InterDigital)Slide 24 Sept 2015

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