IEEE 802.11-14/1343r1 Multicast Scenarios for MAC Calibration

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"Explore multicast scenarios for MAC calibration in IEEE 802.11-14/1343r1 document. Learn about efficient multimedia content delivery, proposed MAC calibration tests, and verification of multicast frame exchange. Dive into different multicasting configurations and checkpoints for Legacy and Groupcast scenarios."

  • IEEE
  • Multicast Scenarios
  • MAC Calibration
  • Multimedia Content
  • Efficient Delivery
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  1. November 2014 doc.: IEEE 802.11-14/1343r1 Multicast Scenarios for MAC Calibration Date: 01/11/2014 Authors: Name Affiliations Address Phone Email Igor Kim ETRI Korea +82-42-860-5525 ikim@etri.re.kr Gwangzeen Ko ETRI Korea +82-42-860-4862 gogogo@etri.re.kr Hyunduk Kang ETRI Korea +82-42-860-1074 henry@etri.re.kr Myung-Sun Song ETRI Korea +82-42-860-5046 mssong@etri.re.kr Submission Slide 1 Igor Kim, ETRI

  2. November 2014 doc.: IEEE 802.11-14/1343r1 Summary In [1], [2] simulation scenarios and evaluation methods for MAC simulator are described Video distribution in dense environments could be one of the main use cases in 11ax Multicasting is known to be one of the most efficient ways to deliver the same multimedia content to multiple users Scenario 3 (Indoor Small BSSs) of [1] describes multicast scenario MAC calibration with simple multicast tests is necessary In this document we propose two simple tests for MAC calibration considering multicasting Submission Slide 2 Igor Kim, ETRI

  3. November 2014 doc.: IEEE 802.11-14/1343r1 Proposed Test 6. Multicast in Single BSS Goal Verify the operation of multicast frame exchange and control frame overhead is correctly computed Configuration Basic parameters are same as described in [1] Topology is derived from Test 1a Different multicasts could be considered Legacy (No feedback, only MCS0) 11aa Groupcast with retry (GCR) Unsolicited retry (similar to legacy but with N retries) Block ACK (BAR/BA exchange) 11v Directed Multicast Service (DMS) Output Multicast throughput Simulation time trace AP1 STA 3 STA 1 STA 2 Submission Slide 3 Igor Kim, ETRI

  4. November 2014 doc.: IEEE 802.11-14/1343r1 Proposed Test 6. Check Points (1) Legacy multicasting check points CP1, CP2: MPDU1 Tx CP2, CP3: SIFS duration CP3, CP4: MPDU2 Tx at CP3, CP4 Numerical throughput TMPDU MPDU Tx time Tbackoff average backoff time Dsize application data size (bytes) TPUT = Dsize * 8 * 2 / (DIFS + Tbackoff + 2*TMPDU + SIFS) CP2 CP3 CP4 CP1 DIFS SIFS MPDU1 MPDU2 Backoff Checkpoints for Legacy Multicasting Submission Slide 4 Igor Kim, ETRI

  5. November 2014 doc.: IEEE 802.11-14/1343r1 Proposed Test 6. Check Points (2) GCR unsolicited retry multicasting check points CP1, CP2: MPDU1 Tx CP2, CP3: SIFS duration CP3, CP4: MPDU1 re-Tx at CP3, CP4 Numerical throughput TMPDU MPDU Tx time Tbackoff average backoff time Dsize application data size (bytes) TPUT = Dsize * 8 / (DIFS + Tbackoff + 2*TMPDU + SIFS) CP2 CP3 CP4 CP1 DIFS SIFS MPDU1 MPDU1 Backoff Checkpoints for unsolicited retry Multicasting Submission Slide 5 Igor Kim, ETRI

  6. November 2014 doc.: IEEE 802.11-14/1343r1 Proposed Test 6. Check Points (3) GCR Block ACK multicasting check points CP1, CP2: SIFS duration CP2, CP3: BAR1 Tx CP3, CP4: SIFS duration CP4, CP5: BA1 Tx Similarly, verify BAR/BA exchange with other STAs CP1 CP4 CP2 CP3 CP7 CP8 CP9 CP10 CP5 CP6 CP11CP12 CP13 DIFS SIFS SIFS SIFS SIFS SIFS SIFS SIFS MPDU1 Backoff MPDU2 BAR1 BA1 BAR2 BA2 BAR3 BA3 Checkpoints for GCR Block ACK Multicasting Submission Slide 6 Igor Kim, ETRI

  7. November 2014 doc.: IEEE 802.11-14/1343r1 Proposed Test 7: Multicast in Simple OBSS Goal Verify multicasting operation, including frame retransmissions, in simple interference scenario with hidden nodes Configuration Configurations are same as in Test 6 Topology is derived from Test 2b Output Per-STA multicast throughput Simulation time trace STA 5 STA 2 STA 6 AP 2 AP1 STA 3 STA 1 STA 4 Submission Slide 7 Igor Kim, ETRI

  8. November 2014 doc.: IEEE 802.11-14/1343r1 Proposed Test 7: Check Points GCR Block ACK multicasting check points CP1, CP2: SIFS duration CP2, CP3: BAR3 transmission to STA3 CP3, CP4: SIFS duration CP4, CP5: BA3 transmission from STA3 Retransmitted MPDUs CP1 CP4 CP2 CP3 CP5 DIFS SIFS SIFS SIFS MPDU1 Backoff MPDU2 BAR3 BA3 Checkpoints for GCR Block ACK Multicasting Submission Slide 8 Igor Kim, ETRI

  9. November 2014 doc.: IEEE 802.11-14/1343r1 Difference b/w Multicast and Unicast Tests Different CW behavior In multicast CW changes differently from unicast mode CW does not change for multicast data frames May increase if unicast transmissions are used (Block ACK, DMS) Different ACK policy Different amount of overhead Protocol dependent Multicast group size dependent Submission Slide 9 Igor Kim, ETRI

  10. November 2014 doc.: IEEE 802.11-14/1343r1 Why Calibration for Multicast? To enhance accuracy and precision of multicast simulations Traceability (relating the multicast measurements to others) Uncertainty (how accurate are the measurements) Reliability (can we trust the multicast simulator) Scenario 3 (Indoor Small BSSs) of [1] describes multicast scenario Perform calibration using small test first Then move to the larger one Specify multicast protocol to be used Need to decide which multicast protocol will be used as a reference protocol Submission Slide 10 Igor Kim, ETRI

  11. November 2014 doc.: IEEE 802.11-14/1343r1 Conclusion Proposed two tests for multicasting Test 6 for verifying multicasting frame exchange and measure control overhead Test 7 for validation of multicasting in simple interference scenario Submission Slide 11 Igor Kim, ETRI

  12. November 2014 doc.: IEEE 802.11-14/1343r1 Straw Poll Do you agree to include the proposed tests into the scenarios for MAC simulator calibration? Yes No Abstain Submission Slide 12 Igor Kim, ETRI

  13. November 2014 doc.: IEEE 802.11-14/1343r1 Reference [1] 11-14-0980-04-00ax-simulation-scenarios [2] 11-14-0571-05-00ax-evaluation-methodology Submission Slide 13 Igor Kim, ETRI

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