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基于MPLS的移动IPv6预测式快速切换方案 被引量:1

Predictive fast handoff scheme for MPLS based mobile IPv6.
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摘要 针对现有的多协议标签交换(MPLS)和IPv6融合方案存在建立标签交换路径(LSP)所需时延大、丢包率高和无错误恢复处理等问题,提出了一种新的方案。该方案通过定义预测信息表和预测式MPLS移交切换算法,使得移动节点(MN)在移交切换前,根据自身需要选择目的接入路由器(TAR),以便TAR提前完成其与交叉路由器(CR)的LSP建设,从而实现MN移交切换时延的最小化;另外,所提预测式MPLS移交切换算法使得该方案具有错误恢复的能力;对LSP拓扑结构的改进和采用双播机制能够有效减少切换丢包率。理论和仿真分析表明,所提方案的切换时延和丢包率小于现有方案,且具有错误恢复的能力。 A novel scheme for integrating Multi-Protocol Label Switching (MPLS) with mobile IPv6 is proposed to solve the problems of long latency for Label Switching Path (LSP) establishment,high packet loss and no failure recovery in existing integration scheme.A new concept named Predictive Information Table is defined and a predictive MPLS handover algorithm is put forward,so that before MN hands over,MN can choose a TAR according to its specific demand and TAR can establish the LSP between itself and CR,which minimizes MN's handoff latency.Besides,the proposed algorithm has failure recovery function.In addition,the LSP topology, is improved and bicasting mechanism is adopted,which can reduce the packet 10ss.Both theoretics and simulation analyses show that the handoff latency and packet loss in the proposed scheme are shorter than that in the existing scheme,and our scheme has failure recovery function.
作者 王红梅 贾宗璞 李刚
机构地区 河南理工大学计算机学院
出处 《计算机工程与应用》 CSCD 北大核心 2007年第31期141-144,共4页 Computer Engineering and Applications
基金 河南省自然科学基金(the Natural Science Foundation of Henan Province of China under Grant No.0411010700)
关键词 多协议标签交换(MPLS) 移动IPV6 预测信息 错误恢复 快速切换 Multi-Protocol Label Switching(MPLS) mobile IPv6 predictive information failure recovery fast handoff
分类号 TP393 [自动化与计算机技术—计算机应用技术]
  • 相关文献

参考文献12

  • 1Rosen E,Viswanathan A,Callon R.RFC3031 Multiprotocol label switching architecture[S], 2001.
  • 2Johnson D,Perkins C,Arkko J.RFC3775 Mobility support in IPv6[S], 2004.
  • 3唐丽均,陈前斌,刘兴潜,聂能,隆克平.基于MPLS的层次微移动协议的性能分析[J].计算机应用研究,2005,22(6):207-208. 被引量:2
  • 4Ren Z,Tham C,Foo C,et al.Integration of mobile IP and multiprotocol label switching[C]//ICC2001,2001.
  • 5王胜灵,黄建辉,侯义斌.基于MPLS的移动IPv6网络的无缝切换方案[J].西安交通大学学报,2004,38(10):1043-1047. 被引量:3
  • 6Farrel A,Vasseur J-P,Ayyangar A.RFC4726 A framework for inter-domain multi-protocol label switching traffic engineering[S], 2006.
  • 7Nadeau T, Morrow M,Swallow G,et al.RFC4377 Operations and Management(OAM) requirements for Multi-Protocol Label Switched(MPLS) networks[S], 2006.
  • 8Zhou Bin,Makrakis D,Groza V,QoS-capable micro-mobility MPLS and its prototype implementation[C]//CCECE2003,2003.
  • 9高天寒,郭楠,赵宏.基于树状MAP的移动IPv6无缝实时切换策略研究[J].通信学报,2004,25(11):98-106. 被引量:5
  • 10Conta A,Deering S.RFC2463 Internet Control Message Protocol (ICMPv6) for the Internet Protocol Version 6(IPv6) specification[S], 2005.

二级参考文献31

  • 1E Rosen, A Viswanathan, R Callon. Multiprotocol Label Switching Architecture[ S]. RFC 3031, 2001.
  • 2C Perkins. IP Mobility Support[ S]. RFC 2002, 1996.
  • 3Karim El Malki, Pat R Calboun, eta/. Low Latency Handoffs in Mobile IPv4 [ R]. draft-ietf-Mobileip-lowlatency-handoffs-v4- 09. txt,2004.
  • 4Zhong Ren, Chen-Khong Tham, et al. Integration of Mobile IP and Multi-Protocol Label Switching[ C]. ICC2001,2001.
  • 5Tingzhou Yang, Yixin Dong, et al. Practical Approaches for Supporting Micro Mobility with MPLS[ C ]. Beijing: International Conferences on Telecommunications ,2002.
  • 6L Andersson, P Doolan, N Feldman, et al. LDP Specification [ S ].RFC 3036, 2001.
  • 7Columbia IP Micro-Mobility Software URL[ EB/OL]. http://comet.columbia. edu/micromobility/,2004-11 -26.
  • 8The Network Simulator-ns-2URL [ EB/OL ]. http://www. isi. edu/nsnam/ns/ ,2004-11-26.
  • 9Johnson D B, Perkins C E, Arkko J. Mobility support in IPv6 [EB/OL]. http://ipv6.bupt.edu.cn/mipv6/index.htm,2003-08-15.
  • 10Zhong R, Cheng K H, Chun C, et al. Integration of mobile IP and multi-protocol label switching [A]. IEEE International Conference on Communications, Helsinki, Finland,2001.

共引文献6

同被引文献9

  • 1JOHNSON D, PERKINS C, ARKKO J. Mobility support in IPv6[S]. RFC3775, Intemet Engineering Task Force, 2004.
  • 2MeCANN P. Mobile IPv6 fast handovers for 802.11 networks[S], lnternet Engineering Task Force, 2004.
  • 3KIM D G, SHIN H J, SHIN D R. A network-based handover scheme for hierarchical mobile IPv6 over IEEE 802.16e[C]//Proceedings of the 10th International Conference on Advanced Communication Technology (ICACT'08). Phoenix Park, USA: 1EEE, 2008: 468-472.
  • 4MISHRAA, SHIN M, ARBAUGH W. An empirical analysis of the IEEE 802.11 MAC layer handoff process[J]. Computer Communication Review, 2003, 33(2): 93-102.
  • 5JUNG H Y, KOH S J. Fast handover support in Hierar-chical mobile 1Pv6[C]/frhe 6th International Conference on Advanced Communication Technology. [S.I.]: [s.n.], 2004: 551-554.
  • 6W1TRUP T, LILDBALLE A. Seamless handoff in mobile IPv6:Development of the parametric cell switching handoff initiation concept based on theoretical and empirical study of common handoff initiation strategies[D]. Aalborg, Denmark: Department of Computer Scineee, Aalborg University, 2001.
  • 7WANG Y H, HUANG C S, KUO C S, et al. Dynamic MAP selection mechanism for HMIPv6[C]//Proceedings of the 22rid International Conference on Advanced Information Networking and Applications (AINA'08). Okinawa, Japan: 1EEE, 2008: 691-696.
  • 8HSIEH R, SENEVIRATNE A. A comparison of mechanisms for improving mobile 1P handoff latency for end-to-end TCP[C]//MobiCom'03 Proceedings of the 9th Annual International Conference on Mobile Computing and Network in ACM. New York, USA: [s.n.], 2003.
  • 9杨卫东,马建峰,杨超.无线局域网中一种快速安全的切换方法[J].西安电子科技大学学报,2008,35(3):474-477. 被引量:9

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计算机工程与应用
2007年 第31期

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