1 / 114

Intel Validation of TGn Simulation Scenarios

Intel Validation of TGn Simulation Scenarios. Adrian P Stephens Dmitry Akhmetov Sergey Shtin ( adrian.p.stephens@intel.com ) ( dmitry.akhmetov@intel.com ) ( sergey.shtin@intel.com ) Intel Corporation. Purpose of the work.

Download Presentation

Intel Validation of TGn Simulation Scenarios

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. Intel Validation of TGn Simulation Scenarios Adrian P Stephens Dmitry Akhmetov Sergey Shtin (adrian.p.stephens@intel.com) (dmitry.akhmetov@intel.com) (sergey.shtin@intel.com) Intel Corporation Adrian Stephens, Intel

  2. Purpose of the work • To show that the simulation scenarios defined in 11-03-802 can be implemented in a realistic protocol • To encourage a “yes” vote to the following: • Move to adopt the simulation scenarios in 11-03-802r<xx> Adrian Stephens, Intel

  3. Simulation Methodology Adrian Stephens, Intel

  4. Model & Features • Framework: Opnet V9 with substantially modified 802.11 components • PHY Model: • TGn channel models (with shadowing) • Collect SNIR per sub-carrier per interference region • Adaptive Bit Loading • MAC Model: • DCF channel access • RTS/CTS training exchange • Aggregate transmission using ABL-trained packets Adrian Stephens, Intel

  5. Implementation of scenarios • Only interested in the QoS (UDP) flows • Don’t have EDCA or HCCA yet • Assume HCCA good enough to isolate UDP based on polled TXOPs from loss of service by applied TCP/IP flows • Measure throughput, delay, number of packets lost and delayed “too long” Adrian Stephens, Intel

  6. PHY Mode • 1x1 Antenna configuration • Channel width 80MHz • to give 4x raw speed • Because we haven’t completed our MIMO model yet • Expect to be similar to 2x2 40MHz results • ABL operation during data transmissions Adrian Stephens, Intel

  7. MAC Parameters • RTS/CTS/Burst/Block Ack protocol • MIN Burst Size = 3 MPDU • MAX Burst Size = 31 MPDU • TXOP limit = 2 microseconds • Full TXOP usage • (Always try and fill TXOP) Adrian Stephens, Intel

  8. Status of results • Initial simulation results show that all the simulated scenarios meet the application QoS requirements except #2, 6, 9, 11. • Have not implemented 9 & 11 • Don’t expect any problems with 9 & 11 • Simulations #2 & 6 • Need EDCA (which we don’t have yet) to give priority to VoIP over video. • Using DCF means high Video Rate traffic causes UDP voice to exceed its delay limits Adrian Stephens, Intel

  9. Conclusion • All scenarios except 2,6, 9 and 11 have been simulated as specified including only UDP traffic • It is reasonable to expect that all scenarios will meet the QoS limits within our model when EDCA is implemented • Recommend we recommend acceptance of these scenarios to TGn in Albuquerque • Any changed models/scenarios will need re-validation Adrian Stephens, Intel

  10. Scenario #1 RX TX Maximum delay ms Peak ETE delay Total received PLR (too late) STA0 STA7 30 0.041654 1900 0.63% STA8 30 0.046585 1901 0.47% STA9 30 0.057728 1902 0.63% STA10 STA11 16 0.018546 12455 0.16% QoS Performance for SS #1 PLR of the rest STAs is 0 (zero) Adrian Stephens, Intel

  11. Scenario #4 RX TX Maximum delay ms Peak ETE delay Total received % of “too late” STA0 STA28 30 0.035515 1876 0.23% QoS Performance for SS # 4 PLR of the rest STAs is 0 (zero) Adrian Stephens, Intel

  12. Scenario #4 RX TX Lost Packets Total Rx % PLR STA0 STA1 13 4981 0.26 STA2 3 4960 0.06 STA3 2 4958 0.04 STA6 3 1884 0.15 STA7 7 2421 0.28 STA8 5 2410 0.21 STA25 7 1895 0.36 STA26 11 1875 0.58 STA27 2 1896 0.11 STA28 20 1876 1.06 QoS Performance for SS # 4 Adrian Stephens, Intel

  13. Detailed Results for SS # 1 Adrian Stephens, Intel

  14. Aggregate Throughput Adrian Stephens, Intel

  15. STA0 Rx Rate Adrian Stephens, Intel

  16. STA0 Tx Burst Size Adrian Stephens, Intel

  17. STA0 Medium Access Delay Adrian Stephens, Intel

  18. STA0 Number of Tx sequences per TXOP Adrian Stephens, Intel

  19. STA0 Number of retransmission attempts Adrian Stephens, Intel

  20. STA1 Rx Rate Adrian Stephens, Intel

  21. STA1 Tx Burst Size Adrian Stephens, Intel

  22. STA1 Medium Access Delay Adrian Stephens, Intel

  23. STA1 Number of retransmission attempts Adrian Stephens, Intel

  24. STA10 Rx Rate Adrian Stephens, Intel

  25. STA10 End to End Delay Adrian Stephens, Intel

  26. STA11 Tx Burst Size Adrian Stephens, Intel

  27. STA11 Tx Media Access Delay Adrian Stephens, Intel

  28. STA11 Tx Undelivered MPDUs per Burst Adrian Stephens, Intel

  29. STA11 Tx sequences per TXOP Adrian Stephens, Intel

  30. STA11 Tx Retransmission Attempts Adrian Stephens, Intel

  31. STA3 Rx Rate Adrian Stephens, Intel

  32. STA3 Tx Burst Size Adrian Stephens, Intel

  33. STA3 Media Access Delay Adrian Stephens, Intel

  34. STA3 Retransmission Attempts Adrian Stephens, Intel

  35. STA4 Rx Rate Adrian Stephens, Intel

  36. STA5 Rx rate Adrian Stephens, Intel

  37. STA5 Medium Access Delay Adrian Stephens, Intel

  38. STA5 Retransmission Attempts Adrian Stephens, Intel

  39. STA6 Rx Rate Adrian Stephens, Intel

  40. STA6 Media Access Delay Adrian Stephens, Intel

  41. STA6 Retransmission Attempts Adrian Stephens, Intel

  42. STA7 Rx Rate Adrian Stephens, Intel

  43. STA7 Burst Size Adrian Stephens, Intel

  44. STA7 Media Access Delay Adrian Stephens, Intel

  45. STA7 Retransmission Attempts Adrian Stephens, Intel

  46. STA8 Rx Rate Adrian Stephens, Intel

  47. STA8 Burst Size Adrian Stephens, Intel

  48. STA8 Medium Access Delay Adrian Stephens, Intel

  49. STA8 Retransmission Attempts Adrian Stephens, Intel

  50. STA9 Rx Rate Adrian Stephens, Intel

More Related