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MPTCP与CMT-SCTP拥塞控制机制研究 被引量:9

Study on MPTCP and CMT-SCTP Congestion Control Mechanism
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摘要 多路径传输控制协议(MPTCP)与并发多路径传输控制协议(CMT-SCTP)是下一代互联网多路径并发传输的2种热点技术,但传统拥塞控制算法只适合于单路径传输,应用于多路径传输时会面临公平性的问题。为此,研究传统TCP拥塞控制算法,针对多路径并发传输的不公平性问题,基于资源池思想,引入慢启动阈值比因子、增长因子和抢占因子,给出3种新的拥塞控制算法,并通过仿真进行对比分析。 Multi-path TCP( MPTCP) and Concurrent Multipath Transfer for SCTP( CMT-SCTP) are two technologies of the concurrent multi-path transfer for NGI,w hich are hot topics. Compared w ith the traditional TCP and SCTP,the congestion control of multi-path transport protocols w ill face the problem of unfairness. This paper begins w ith an overview of the traditional TCP congestion control algorithm,and then in view of the unfairness of concurrent multi-path transfer,basing on the resource pooling method,it introduces the slow start threshold ratio factor,increase factor,per-flow aggressiveness factor,deduces three new algorithms to solve the problem of unfairness,and carryies out the contrastive analysis through simulation.
作者 刘镇 谭毓银 符发 Thomas Dreibholz 周星 白勇 杨雄 杜文才
机构地区 海南大学信息科学技术学院 Simula挪威国家实验室
出处 《计算机工程》 CAS CSCD 北大核心 2015年第4期117-124,共8页 Computer Engineering
基金 国家自然科学基金资助项目“下一代互联网多宿主系统国际测试床构建与性能分析”(61363008) 国家自然科学基金资助项目“基于RSer Pool应用的SCTP传输协议传输路径的优化研究”(61163014) 国家自然科学基金资助项目“基于网络效用最大化理论增强无线Mesh网Vo IP传输性能的机制研究”(61261024) 海南省国际科技合作专项基金资助项目“下一代互联网SCTP传输协议测试床构建与性能分析”(KJHZ2013-20)
关键词 多路径传输 拥塞控制 公平性 资源池 增长因子 抢占因子 multi-path transfer congestion control fairness Resource Pooling(RP) increase factor aggressiveness factor
分类号 TP393 [自动化与计算机技术—计算机应用技术]
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参考文献15

  • 1Welzl M. Network Congestion Control[ M]. [ S. 1. ] :John Wiley & Sons,2005.
  • 2Ford A, Raiciu C, Handley M, et al. Architectural Guidelines for Multipath TCP Development[ Z]. 2011.
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  • 4Dreibholz T. Evaluation and Optimization of Multi-path Transport Using the Stream Control Transmission Protocol[D]. Essen, Germany: University of Duisburg- Essen, 2012.
  • 5符发,周星,杨雄,Hakim Adhari,Erwin P.Rathgeb.MPTCP与CMT-SCTP多路径传输协议性能分析[J].计算机工程与应用,2013,49(21):79-82. 被引量:9
  • 6Raiciu C, Wischik D, Handley M. Practical Congestion Control for Multipath Transport Protocols [ Z]. 2009.
  • 7Dreibholz T,Becke M,Adhari H, et al. On the Impact of Congestion Control for Concurrent Multipath Transfer on the Transport Layer [ C] //Proceedings of the llth International Conference on Telecommunications. Washington D. C., USA : IEEE Press, 2011 : 397-404.
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二级参考文献19

  • 1Magalhaes L,Kravets R.Transport level mechanisms for band-width aggregation on mobile hosts[C]//The 9th IEEE Interna-tional Conference on Network Protocols(ICNP).Riverside,California,U.S.A.:IEEE,2001.
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  • 3Zhang M,Lai J,Krishnamurthy A,et al.A transport layerapproach for improving end-to-end performance and robust-ness using redundant paths[C]//The USENIX Annual Techni-cal Conference.Boston,Massachusetts,U.S.A.:IEEE,2004.
  • 4Ford A,Raiciu C,Handley M,et al.RFC 6182 Architecturalguidelines for multipath TCP development[S].IETF Interna-tional,2011.
  • 5Ford A,Raiciu C,Handley M,et al.RFC6824 TCP extensionsfor multipath operation with multiple addresses[S].IETF,2012.
  • 6Stewart R R.RPC 4960 Stream control transmission protocol[S].IETF,Standards Track,2007.
  • 7Iyengar J R,Amer P D,Stewart R.Concurrent multipath trans-fer using SCTP multihoming over independent end-to-endpaths[J].IEEE/ACM Transactions on Networking,2006,14(5).
  • 8Amer P D,Becke M,Dreibholz T,et al.Load sharing for theStream Control Transmission ProtocoK SCTP)[S].2012.
  • 9Dreibholz T.Evaluation and optimisation of multi-path trans-port using the stream control transmission protocol[D].Essen,Germany:University of Duisburg-Essen,2012.
  • 10Dreibholz T,Becke M,Adhari H,et al.On the impact ofcongestion control for concurrent multipath transfer on thetransport layer[C]//The Ilth IEEE International Conferenceon Telecommunications(ConTEL).Graz,Steiermark,Austria:IEEE,2011.

共引文献8

同被引文献46

  • 1张宏科,苏伟.新网络体系基础研究——一体化网络与普适服务[J].电子学报,2007,35(4):593-598. 被引量:126
  • 2杨冬,周华春,张宏科.基于一体化网络的普适服务研究[J].电子学报,2007,35(4):607-613. 被引量:40
  • 3L. Magalhaes,R. Kravets. Transport l,evel Mechanisms for Bandwidth Aggregation on Mobile Hosts[C]. the 9th 1EEE Internatinnal Con- ference on Network Protocols (ICNP). Riverside, California/U.S.A. : IEEE(ICNP), 2001.
  • 4H.-Y. Hsieh,R. Sivakumar. pTCP: An End-to-End Transport Layer Protocol for Striped Connections[C]. the 10th IEEE International Conference on Network Prntoeols (ICNP)., Paris/France:lEEE(ICNP), 2002.
  • 5M. Zhang, J. Lai, A. Krishnamurthy, L. Peterson, R. Wang, A Transport Layer Approach for hnproving End-to-End Performance and Robustness Using Redundant Paths[C]. the USENIX Annual Technical Conference. Boston, Massachusetts/U.S.A.:IEEE,2004.
  • 6A. Ford, C. Raiciu, M. Handley, S. BasT'e, J. R. Iyengar. Architectural Guidelines fnr Muhipath TCP Development. IETF, Inhrmational RFC 6182, Mar. 2011, ISSN 2070-1721.
  • 7A. Ford, C. Raiciu, M. Handley, O. Bonaventure. TCP Extensions for Multipath Operation with Multiple Addresses. IETF,RFC6824, Jan. 2016.
  • 8Dreibholz Thomas. Ideas for a Next Generation of the Stream Control Transmission Protocol(SCTP) tsvwg-Sctp-Nextgen-Ideas-03, IETF, Individual Submission, January 9, 2016.
  • 9Dreibholz Thomas,Becke Martin,Adhari Hakim. SCTP Socket API Extensions for Concurrent Multipath Transfer. Internet Draft Draft- Dreibholz-Tsvwg-Sctpsocket-Muhipath-12, IETF, Individual Submission, Feb.10, 2016.
  • 10P. D. Amer, M. Becke, T. Dreibholz, N. Ekiz, J. R. Iyengar, P. Natarajan, R. R. Stewart, M. T'uxen. Load Sharing for the Stream Con- trol Transmission Protocol (SCTP). Internet Draft Draft-Tuexen-Tsvwg-Sctp-Muhipath-ll, IETF, Individual Submission, Nov.30, 2015.

引证文献9

二级引证文献16

计算机工程
2015年 第4期

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