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Fast-integrated handover scheme with NEMO support in IEEE 802.16e BWA networks

Fast-integrated handover scheme with NEMO support in IEEE 802.16e BWA networks. Lei ZHONG School of Electronics and Information Engineering, Tongji University, P.R. China Fuqiang LIU School of Electronics and Information Engineering, Tongji University, P.R. China Yusheng JI

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Fast-integrated handover scheme with NEMO support in IEEE 802.16e BWA networks

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  1. Fast-integrated handover scheme with NEMO support in IEEE 802.16e BWA networks Lei ZHONG School of Electronics and Information Engineering, Tongji University, P.R. China Fuqiang LIU School of Electronics and Information Engineering, Tongji University, P.R. China Yusheng JI National Institute of Informatics (NII) and The Graduate University for Advanced Studies, Japan

  2. Outline • Introduction • Related work • Proposed algorithm • Analysis and results • Conclusion

  3. Introduction -demand

  4. Introduction -NEMO scenario

  5. Outline • Introduction • Related work • Proposed algorithm • Analysis and results • Conclusion

  6. Related work • Mobile IPv6 Fast Handovers over IEEE 802.16e Networks (FH80216e) • advantage To solve the problem of unacceptable latency for real-time services, FMIPv6 was proposed to performs part of the time-consuming process before actual mobile node handover, reducing handover latency. FH80216e describes how FMIPv6 could be implemented on link layers conforming to the 802.16e specification by introducing some cross-layer triggers. • Shortcomings both the two layered handover mechanisms still operate alternately, not in parallel. mainly designed for the node mobility scenarios, suffers from bad performance when serving moving networks due to its extra encapsulation.

  7. Related work • NEMO basic support protocol • Advantage provides native NEMO handover. • Shortcomings produces high handover latency due to have no consideration of link-layer handover.

  8. Related work • NEMO basic support protocol • Advantage provides native NEMO handover. • Shortcomings produces high handover latency due to have no consideration of link-layer handover.

  9. Outline • Introduction • Related work • Proposed algorithm • Analysis and results • Conclusion

  10. Proposed algorithm • Network model • The typical NEMO scenario is a vehicular network, with the vehicles moving mostly along roads, rails, or flight paths. • In such a scenario, advance preparation for an impending handover works quite well.

  11. Proposed algorithm • Handover operation

  12. Outline • Introduction • Related work • Proposed algorithm • Analysis and results • Conclusion

  13. Analysis and results • parameters: • Tframe: Frame duration of IEEE 802.16e OFDMA PHY. • TBS_nego: Negotiation delay between the serving BS and the recommended BS in ms. • TL2_entry: Latency of IEEE 802.16e network re-entry procedure. • Thop: Delay of every routing hop in a wired backbone network. • Nnar_ha: Distance between the NAR and the HA in hops. • Npar_ha: Distance between the PAR and the HA in hops. • Npar_nar: Distance between the NAR and the HA in hops. • Tdad: Time needed to perform a DAD process. • Tcn_ha: Link delay between CN and HA.

  14. Analysis and results • Expressions: • Handover latency • Service disruption time

  15. Analysis and results Handover latency for different distances between MR and HA Handover latency for different frame durations

  16. Analysis and results Disruption time for different distances between MR and HA Disruption time for different frame durations

  17. Outline • Introduction • Related work • Proposed algorithm • Analysis and results • Conclusion

  18. Conclusion • achieves a lower handover latency and service disruption time and, with a buffered router, supports even seamless handover in the network. • Compatible and works well together with FH80216e, which supports node mobility.

  19. Thanks for your attention. Any question?

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