Wang Qiong, Su Donglin, Xie Shuguo, et al. Noise density research in the system-modeling of RF receivers[J]. Journal of Beijing University of Aeronautics and Astronautics, 2006, 32(04): 395-398. (in Chinese)
Citation: Kang Jianchu, Chen Yu. Analysis of handover performance of mobile IPv6 and an implementation of its smooth handover framework[J]. Journal of Beijing University of Aeronautics and Astronautics, 2005, 31(05): 494-498. (in Chinese)

Analysis of handover performance of mobile IPv6 and an implementation of its smooth handover framework

  • Received Date: 08 Dec 2003
  • Publish Date: 31 May 2005
  • IPv4-based networks are faced with many problems like the lack of IP address, less security, and so on, which have limited the development of Internet, therefore, it is important to study the techniques of IPv6, so as to promote the construction of the next generation of Internet. The problems of handover latency and lost packets of mobile IPv6 were discussed, in which, the three extension techniques in current mobile IPv6 protocols, namely as fast handover, smooth handover and hierarchical mobile IPv6, were firstly analyzed. And then, based on the IETF drafts, a framework with smooth handover technique was brought forward. In this framework, the handover process and the buffer management worked at different levels respectively, which would improve the expansion and portability of the application systems. This framework would be viewed as an effective method to transport reliably the real-time information of the application systems working in mobile IPv6 environment.

     

  • [1] Gopal D, Malki K E. Fast handovers for mobile IPv6 . [2] Johnson D, Perkins C. Mobility support in IPv6 . [3] Koodli R, Perkins C E. A framework for smooth handovers with mobile IPv6 . [4] Soliman H. Hierarchical mobile IPv6 mobility management . [5] Montavont N, Noel T. Handover management for mobile nodes in IPv6 networks[J]. IEEE, 2002,40(8):38~43[6] Tuominen A J, Petander H. MIPL mobile IPv6 for Linux in HUT campus network mediaPoli . Proceedings of Ottawa Linux Symposium 2001 . Ottawa,2001[7] Tan P. Recommendations for achieving seamless IPv6 handover in IEEE 802.11 networks . [8] Ayani B. Smooth handoff in mobile IP . California, USA:Department of Electrical Engineering and Computer Science, University of California in Berkeley, 2002
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