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IPv6移动管理的自适应优化与仿真 被引量:1

Adaptive Optimization and Simulation of Mobility Management in IPv6 Network
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摘要 减少网络传输花费和带宽占用为代表的通信管理费用是IP网络研究移动管理的关键问题之一.为优化分层域内外分发位置管理消息和数据分组所产生的总费用,论文在分析了实施分层移动IPv6前后费用变化的基础上,提出了一种可行的自适应移动管理方案,允许节点根据实际工作参数选择适宜的移动管理机制.进一步的仿真与性能评估结果表明自适应移动管理获得了显著的费用优化效果,可望具有较好的实际应用价值. The recent emergence of mobile communication and wireless access in IP network provides an incentive for designing an efficient mechanism to enable an IP terminal to move seamlessly among wireless and wired networks with different prefixes. Mobile IPv6 shows some new key features and will be accepted more widely than Mobile IPv4 in several years later. Decreasing mobility management cost is one of the key problems on designing Mobile IP. Hierarchical Mobile IPv6(HMIPv6) was proposed to reduce the number of management messages in core network. However, after comparing the cost of HMIPv6 with MIPv6, this paper proves that the performance improvement of HMIPv6 is at the expense of the increase of cost inside hierarchical domain. For supporting more flexible and effective mobility, Adaptive Mobility Management Scheme(AMMS) is proposed in this paper. AMMS allows a mobile node to select a suitable mobility management mechanism adaptively according to some parameters. Simulation work is accomplished and the results show that AMMS has better performance than unmixed MIPv6 and HMIPv6 on decreasing the total communication and management cost.
作者 彭雪海 张宏科 张思东
机构地区 北京交通大学电子信息工程学院
出处 《北方交通大学学报》 CSCD 北大核心 2003年第6期11-16,21,共7页 Journal of Northern Jiaotong University
基金 国家"863"高技术研究发展重大计划资助项目(2001AA121014)
关键词 计算机网络 移动IPV6 移动管理 分层系统 费用优化 computer network mobile IPv6 mobility management hierarchical systems cost optimization
分类号 TP393.4 [自动化与计算机技术—计算机应用技术]
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参考文献7

  • 1[1]RFC3344. IP Mobility Support for IPv4[S].
  • 2[2]IETF Internet Draft, Draft-ietf-mobileip-ipv6-24.txt, Mobility Support in IPv6[S].
  • 3[3]Castelluccia C. A Hierarchical Mobility Management Scheme for IPv6[A]. Proceedings of the Third IEEE Symposium on Computers and Communications[C]. Athens, Greece: IEEE,1998.305-309.
  • 4[4]IETF Internet Draft, Draft-ietf-mobileip-hmipv6-08.txt.Hierarchical Mobile IPv6 Mobility Management(HMIPv6)[S].
  • 5[5]Montavont N, Nol T. Handover Management for Mobile Nodes in IPv6 Networks[J]. IEEE Communications Magazine, 2002, (8):38-43.
  • 6[6]RFC2462. IPv6 Stateless Address Autoconfiguration[S].
  • 7[7]RFC1981. Path MTU Discovery for IP Version 6[S].

同被引文献9

  • 1Leung K, Devarapalli V, Chowdhury K, et al. Proxy mobile IPv6 [ EB/OL 1. ( 2008-08 ) [ 2009-10-30 ]. http ://www. ietf. org/rfc/rfc5213, txt.
  • 2Yi M K, Choi J W, Yang Y K. A comparative analysis on the signaling load of proxy mobile IPv6 and hierarchical mobile IPv6[ C ]// ISWPC 2009. New Jersey: IEEE Press, 2009 : 1-5.
  • 3Kong K S, Lee W, Han Y H, et al. Mobility management for all-IP mobile networks: mobile IPv6 vs. proxy mobile IPv6[ J]. IEEE Wireless Communications, 2008, 15(2) : 36-45.
  • 4Kong K S, Lee W, Han Y H, et al. Handover latency analysis of a network-based localized mobility management protocol[ C]// ICC'08. New Jersey: IEEE Press, 2008: 5838-5843.
  • 5Jeong S, Shin M K. Route optimization scheme for proxy mobile IPv6 (PMIPv6) [ C]// ICACT 2008. New York: IEEE Press, 2008: 1097-1100.
  • 6Johnson D, Perkins C, Arkko J. Mobility support in IPv6 [ EB/OL ]. (2004-06) [ 2009-10-30 ]. http ://www. ietf. org/rfe/rfc3775, txt.
  • 7Akyildiz I F, Wang Wenye. A dynamic location management scheme for next-generation multitier PCS systems [J]. IEEE Trans on Wireless Communications, 2002, 1(1): 178-189.
  • 8Pack S, Choi Y. A study on performance of hierarchical mobile IPv6 in IP-based cellular networks [ J ]. IEICE Trans on Commun, 2004, E87-B(3) : 462-469.
  • 9周华春,张宏科,秦雅娟.基于网络的区域移动性管理协议性能分析[J].北京交通大学学报,2007,31(5):1-5. 被引量:6

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北方交通大学学报
2003年 第6期

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