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Throughput of 802.11e assuming 802.11a, 802.11b, and 802.11g physical layers

This study by Todor Cooklev and Vishal Shah at San Francisco State University explores the throughput performance of 802.11e in conjunction with various physical layers. Throughput results and implications are discussed in detail.

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Throughput of 802.11e assuming 802.11a, 802.11b, and 802.11g physical layers

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  1. Throughput of 802.11e assuming 802.11a, 802.11b, and 802.11g physical layers Todor Cooklev and Vishal Shah San Francisco State University 1600 Holloway Ave. San Francisco, CA 94132 Phone: +1-415-338-3946 Fax: +1-925-377-6700 tcooklev@ieee.org Todor Cooklev, SFSU

  2. Todor Cooklev, SFSU

  3. EDCA timing Todor Cooklev, SFSU

  4. Throughput of 802.11e+802.11a Todor Cooklev, SFSU

  5. Figure 2. Throughput for 802.11a TC1 Table 3 Throughput results for 802.11a TC1 Throughput of 802.11a TC1-TC7 with ACK Todor Cooklev, SFSU

  6. Throughput of EDCA+802.11a without ACKTC1-TC7 Todor Cooklev, SFSU

  7. Throughput of 802.11e+802.11b Todor Cooklev, SFSU

  8. Throughput of EDCA+802.11b with long preamble and ACK, TC1-TC6 Todor Cooklev, SFSU

  9. Throughput of EDCA+802.11b, long preamble, without ACK, TC1-TC6 Todor Cooklev, SFSU

  10. Throughput of EDCA+802.11b, short preamble, with ACK, TC1-TC6 Todor Cooklev, SFSU

  11. Throughput of 802.11g, 20microsec slot time, with ACK TC2-TC7 Todor Cooklev, SFSU

  12. Throughput of EDCA+802.11g, 20microsec, without ACK TC2-TC7 Todor Cooklev, SFSU

  13. Throughput of EDCA+802.11g, 9microsec slot time, with ACK TC2-TC7 Todor Cooklev, SFSU

  14. Throughput of EDCA+802.11g, 9microsec slot time, without ACK TC2-TC7 Todor Cooklev, SFSU

  15. Throughput of EDCA+802.11b, short preamble, no ACK, TC1-TC6 Todor Cooklev, SFSU

  16. Throughput upper limit Todor Cooklev, SFSU

  17. Throughput upper limit for 802.11a with ACK and without ACK Todor Cooklev, SFSU

  18. Throughput upper limit for 802.11a, not backwards compatible, with and without ACK Todor Cooklev, SFSU

  19. Throughput upper limit for 802.11b, with ACK, long vs short preamble Todor Cooklev, SFSU

  20. Throughput upper limit for 802.11b, without ACK, long vs. short preamble Todor Cooklev, SFSU

  21. Throughput upper limit for 802.11b not backwards compatible, with ACK vs.without ACK, Todor Cooklev, SFSU

  22. Throughput upper limit for 802.11g with and without ACK Todor Cooklev, SFSU

  23. Throughput upper limit for 802.11g, 9 microsec slot time, with and without ACK Todor Cooklev, SFSU

  24. Throughput upper limit for 802.11g, 9 microsec slot time, not backwards compatible, with ACK and without ACK Todor Cooklev, SFSU

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