1 / 8

802.11ah Wi-Fi Offloading Considerations

802.11ah Wi-Fi Offloading Considerations. Authors:. Date: 2011-11-6. Abstract. In our earlier contribution 1011r0 presented in June SF meeting we discussed that the offloading scenario should be evaluated with simulations to verify that 802.11ah would provide meaningful offloading solution

zenia
Télécharger la présentation

802.11ah Wi-Fi Offloading Considerations

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. 802.11ah Wi-Fi Offloading Considerations Authors: Date: 2011-11-6 Timo Koskela, Renesas Mobile Corporation

  2. Abstract • In our earlier contribution 1011r0 presented in June SF meeting we discussed that the offloading scenario should be evaluated with simulations to verify that 802.11ah would provide meaningful offloading solution • Offloading should not jeopardize end user experience. • Offloading capacity should give real relief to operators cellular network to justify investments. • The approved motions in document 1294r1, the 802.11ah selected following supported channel widths: • 1 MHz, 2 MHz,  4 MHz,  8 MHz, and 16 MHz • In this document we show Wi-Fi offloading simulation results (use case 3) on 16MHz channel width downclocked (10x) from 160Mhz 802.11ac PHY Timo Koskela, Renesas Mobile Corporation

  3. Simulation Parameters • The 1311r1 proposed to have same subcarrier spacing for all the supported channel widths • This results in 31.25 kHz spacing • To achieve 16MHz channel width 160 MHz 802.11ac was downclocked with factor of 10 • Tenfold increase in symbol time • Affects also to the other timing related parameters • Key parameters are presented in the table • 802.11ac VHT PPDU format was used Timo Koskela, Renesas Mobile Corporation

  4. Simulation Scenario • One access point • isolated deployment • 10 active stations with FTP traffic • 5 STAs downloading • 5 STAs uploading • TCP/IP layer modeled accurately • 10 drops (60 seconds each) • stations uniformly randomly distributed, no mobility Timo Koskela, Renesas Mobile Corporation

  5. Description of the Performance Metrics • Fairness: Jain’s Fairness Index is used • Measures fairness between the users and the index has maximum value when all STAs have the equal share of the resources • Throughput: Throughput per STA seen at application layer • Aggregate throughput: Aggregate throughput seen at application layer Timo Koskela, Renesas Mobile Corporation

  6. Simulation Results • Average Jain’s index: • 0.43 (1.0 is the optimum with equal rates, 0.1 is the worst one can get) • Average aggregated throughput: • 2669 kbit/s • CDF of per STA achieved throughput Timo Koskela, Renesas Mobile Corporation

  7. Conclusions • 16 MHz channel capacity is not utilized efficiently • Inadequate rates seen for the offloading use case • Only few STAs can be supported with high rates which results in poor fairness • Downclocking increases the PHY and MAC overhead • Downclocking and large coverage area highlight the problems of CDF based access method • 802.11ah is not able to support meaningful offloading with current numerology Timo Koskela, Renesas Mobile Corporation

  8. Strawpolls • Should OFDM PHY characteristics (slot time, SIFS etc.) and PHY frame format of 11ah be reconsidered • Yes • No • Abstain • Should the current MAC and DCF procedure be enhanced to obtain higher 11ah performance? • Yes • No • Abstain Timo Koskela, Renesas Mobile Corporation

More Related