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基于人类移动模式的机会网络数据分发策略

Data dissemination policy by using human mobility patterns for opportunistic networks
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摘要 针对机会网络数据分发效率低的问题,提出了一种新的基于人类移动模式(HMP)的机会网络数据分发策略:选择目标地址匹配(DM)标点、目标地址到达时间(DAT)、网络跳数(NH)这三个数据作为分发策略中的关键因素,把三者的综合评判作为中继节点选取标准并将其应用于机会网络数据转发;有效地降低无用多跳数据转发造成的网络拥塞和资源耗费;建立HMP数据分发模型并分析HMP数据传播范围的上下界。仿真实验结果表明,上述分发策略能够有效地提高机会网络的服务质量,同时也能够降低数据端到端延迟与网络开销。 Aiming at human mobility time" (DAT), the low data-dissemination efficiency of opportunistic networks, a novel data dissemination policy based on patterns (HMP) is and "network hops" proposed. The policy chooses "destination-matching" (DM), "destination-arriving (NH) as its three key factors in data dissemination, and regards the general evalua- tion of the three factors as the criterion for selecting relay nodes, and the criterion is used for data forward in opportunistic networks. It reduces efficien tiple hops through the design tly the network traffic and resource consumption caused by useless data dissemination of mul- of selecting relay nodes, and builds the data dissemination model. Also, it analyzes the up- per and lower bounds of the data dissemination range. The simulation results show that the new policy improves the net- work QoS performance and reduces the data end to end delay and network resource consumption.
作者 叶晖 陈志刚 夏卓群
机构地区 中南大学信息科学与工程学院
出处 《高技术通讯》 CAS CSCD 北大核心 2011年第3期242-247,共6页 Chinese High Technology Letters
基金 国家自然科学基金(60873082)资助项目.
关键词 机会网络 数据分发 网络拥塞 端到端延迟 opportunistic network, data dissemination, network traffic, end to end delay
分类号 TP393.08 [自动化与计算机技术—计算机应用技术]
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参考文献19

  • 1熊永平,孙利民,牛建伟,刘燕.机会网络[J].软件学报,2009,20(1):124-137. 被引量:324
  • 2Jung S, Lee U, Chang A, et al. Blue torrent: cooperative content charing for bluetooth users. In: Proceedings of the IEEE International Conference on Pervasive Computing and Communications, HongKong, China, 2007.47-56.
  • 3Chaintreau A, Hui P, Croweroft J, et al. Impact of human hobihty on the design of opportunistic forwarding algorithms. In: Proceedings of the IEEE International Conference on Computer Communications, Barcelona, Spain, 2006.1-13.
  • 4Chen L J, Chen C Y, Sun T, et al. Finding serf-Similarities in oppommistic people networks. In: Proceedings of the IEEE International Conference on Computer Communications, Anchorage, USA, 2007. 2286-2290.
  • 5Zhang X L, Kurose J, Levine B N, et al. Study of a busbased disruption-tolerant network: mobility modehng and impact on routing. In: Proceedings of the 13th annual ACM international conference on Mobile computing and networking, New York, USA, 2007.46-53.
  • 6Kim M, Kotz D, Kim S. Extracting a mobility model from real user traces. In: Proceedings of the IEEE International Conference on Computer Communications, Barcelona, Spain, 2006.79-92.
  • 7Vahdat A, Becket D. Epidemic routing for partially connected ad hoc networks, University of California Tech. Report. 2000, 6, 433-446.
  • 8Eugster P T, Guerraoui R, Kermarrec A M, et al. Epidemic information dissemination in distributed systems. IEEE Computer, 2004, 37 (5) : 60-67.
  • 9Burns B, Brock O, Levine B N. MV routing and capacity building in disruption tolerant networks. In: Proceedings of the IEEE International Conference on Computer Communica- tions, Miami,USA, 2005. 89-98.
  • 10Lindgren A, Doria A, Schelèn O. Probabilistic routing in intermittently connected networks. Mobile Computing and Communications Review, 2003, 7(3) : 145-159.

二级参考文献97

  • 1邓晓衡,陈志刚,张连明,陈章.一种基于TCP的简单实时端到端带宽测量技术[J].计算机工程,2005,31(5):14-16. 被引量:2
  • 2Hull B, Bychkovsky V, Zhang Y, Chen K, Goraczko M, Miu A, Shih E, Balakrishnan H, Madden S. CarTel: A distributed mobile sensor computing system. In: Proc. of the 4th Int'l Conf. on Embedded Networked Sensor Systems. Boulder: ACM, 2006. 125-138.
  • 3Pan H, Chaintreau A, Scott J, Gass R, Crowcroft J, Diot C. Pocket switched networks and human mobility in conference environments. In: Proc. of the 2005 ACM SIGCOMM Workshop on Delay-Tolerant Networking. Philadelphia: ACM. 2005. 244-251.
  • 4Juang P, Oki H, Wang Y, Martonosi M, Peh LS, Rubenstein D. Energy-Efficient computing for wildlife tracking: Design tradeoffs and early experiences with ZebraNet. In: Proc. of the 10th Int'l Conf. on Architectural Support for Programming Languages and Operating Systems. New York: ACM, 2002.96-107. DO1=http://doi.acm.org/10.1145/605397.605408
  • 5Pelusi L, Passarella A, Conti M. Opportunistic networking: data forwarding in disconnected mobile ad hoc networks. Communications Magazine, 2006,44(11): 134-141.
  • 6Conti M, Giordano S. Multihop ad hoe networking: The reality. Communications Magazine, 2007,45(4):88-95.
  • 7Fall K. A delay-tolerant network architecture for challenged Internets. In: Proc. of the 2003 Conf. on Applications, Technologies, Architectures, and Protocols for Computer Communications. Karlsruhe: ACM, 2003.27-34.
  • 8Akyildiz IF, Akan B, Chert C, Fang J, Su W. InterPlaNetary Intemet: State-of-the-Art and research challenges. Computer Networks, 2003,43(2):75-112.
  • 9Gupta P, Kumar P. The capacity of wireless networks. IEEE Trans. on Information Theory, 2000,46(2):388-404.
  • 10Grossglauser M, Tse DNC. Mobility increases the capacity of ad hoc wireless networks. IEEE/ACM Trans. on Networking, 2002, 10(4):477-486.

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2011年 第3期

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