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PHY SIG Frame Structure for IEEE 802.11aj (45GHz)

PHY SIG Frame Structure for IEEE 802.11aj (45GHz). Date: 2015-11-14 Presenter: Haiming WANG. Authors/contributors:. May 2014. Abstract. The proposal presents a kind of physical layer SIG frame structure in millimeter-wave multi-user MIMO WLAN communication for IEEE 802.11 aj (45GHz).

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PHY SIG Frame Structure for IEEE 802.11aj (45GHz)

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  1. PHY SIG Frame Structure for IEEE 802.11aj (45GHz) Date: 2015-11-14 Presenter: Haiming WANG Authors/contributors: Shiwen He, Haiming Wang

  2. May 2014 Abstract • The proposal presents a kind of physical layer SIG frame structure in millimeter-wave multi-user MIMO WLAN communication for IEEE 802.11 aj (45GHz). Slide 2 Shiwen He, Haiming Wang

  3. May 2014 Background • Challenges of future WPAN Limited spectrum resources Requirement of high data transfer rates • Features of future WPAN Large bandwidth Multiple channel mode Multi-user Multi-stream • 45GHz millimeter-wave communication Digital home appliances Ultra-high-speed (10Gbps) wireless applications Slide 3 Shiwen He, Haiming Wang

  4. May 2014 Technology Objects • The SIG frame structure try to achieve the following technical goals • Dynamic bandwidth • Multi-user & Multi-stream • Energy efficiency • Scrambler • Single & Multi-carrier • Dynamic bandwidth Achieving dynamically channel bandwidth selection for 1080MHz BSS to enhance the adaptability in different channel environments and improve spectral efficiency. Slide 4 Shiwen He, Haiming Wang

  5. May 2014 Technology Objects • Multi-user & Multi-stream Achieve a multi-user multi-stream control to obtain the multiplexing gain. • Energy efficient communication Achieve energy efficient communication, i.e., allow non-AP STAs in TXOP power save mode to enter Doze state during a TXOP. • Scrambler Scrambling effectively reduces the PAPR in OFDM system . • Single carrier & Multi-carrier Switch in single carrier and multi-carrier Slide 5 Shiwen He, Haiming Wang

  6. May 2014 SIG-A structure Slide 6 Shiwen He, Haiming Wang

  7. May 2014 SIG-A structure • Dynamic bandwidth Slide 7 Shiwen He, Haiming Wang

  8. May 2014 SIG-A structure • Multi-user & Multi-stream Slide 8 Shiwen He, Haiming Wang

  9. May 2014 SIG-A structure • Multi-user & Multi-stream Slide 9 Shiwen He, Haiming Wang

  10. May 2014 SIG-A structure • Multi-user & Multi-stream Slide 10 Shiwen He, Haiming Wang

  11. May 2014 SIG-A structure • Energy efficiency Slide 11 Shiwen He, Haiming Wang

  12. May 2014 SIG-A structure • Scrambler Slide 12 Shiwen He, Haiming Wang

  13. May 2014 SIG-A structure • Single carrier & Multi-carrier Slide 13 Shiwen He, Haiming Wang

  14. May 2014 SIG-B structure Slide 14 Shiwen He, Haiming Wang

  15. May 2014 SIG-B structure Slide 15 Shiwen He, Haiming Wang

  16. May 2014 Thanks for Your Attention Slide 16 Shiwen He, Haiming Wang

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