SDHT： Efficient One-Hop DHT Lookup Framework for P2P Live Streaming 被引量：2

SDHT： Efficient One-Hop DHT Lookup Framework for P2P Live Streaming

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摘要 Video data location plays a key role for Peer-to-Peer （P2P） live streaming applications. In this paper, we propose a new one-hop Distributed Hash Table （DHT） lookup frarrework called Strearre ing-DHT （SDHT） to provide efficient video data location service. By adopting an enhanced events dissemination mechanism-EDRA＋, the accuracy of routing table at peers can be guaranteed. More importantly, in order to enhance the perforlmnce of video data lookup operation without incurring extra overhead, we design a so-called Distributed Index Mapping and Management Mechanism （DIMM） for SDHT. Both analytical modeling and intensive simulation experiments are conducted to demonstrate the effectiveness of SDHT framework. Numerical results show that almost 90% requested video data can be retrieved within one second in SDHT based systems, and SDHT needs only 26% average bandwidth consumption when compared with similar one-hop DHT solutions such as D1HT. This indicates that SDHT framework is an appropriate data lookup solution for time-sensitive network applications such as P2P live streaming. Video data location plays a key role for Peer-to-Peer (P2P) live streaming applications. In this paper, we propose a new one-hop Distributed Hash Table (DHT) lookup framework called Streaming-DHT (SDHT) to provide efficient video data location service. By adopting an enhanced events dissemination mechanism-EDRA+, the accuracy of routing table at peers can be guaranteed. More importantly, in order to enhance the performance of video data lookup operation without incurring extra overhead, we design a so-called Distributed Index Mapping and Management Mechanism (DIMM) for SDHT. Both analytical modeling and intensive simulation experiments are conducted to demonstrate the effectiveness of SDHT framework. Numerical results show that almost 90% requested video data can be retrieved within one second in SDHT based systems, and SDHT needs only 26% average bandwidth consumption when compared with similar one-hop DHT solutions such as D1HT. This indicates that SDHT framework is an appropriate data lookup solution for time-sensitive network applications such as P2P live streaming.

作者 Chen Zhuo Feng Gang Zhou Yang Lu Yi

机构地区 National Key Laboratory of Science and Technology on Communications College of Computing College of Computer Science and Engineering Chongqing University of Technology

出处《China Communications》 SCIE CSCD 2012年第8期88-104,共17页 中国通信（英文版）

基金 Acknowledgements This work was supported by the Key Projects for Science and Technology Development under Caant No. 2009ZX03004-002 the National Natural Science Foundation of China under Gants No. 60833002, No. 60772142 the National Science and Technology Fundamental Project under Grant No. 2008ZX03003-005 the Science ＆ Technology Research Project of Chongqing Education Committee under Crant No. KJ120825.

关键词 PEER-TO-PEER distributed hash table streaming application live streaming EDRA P2P流媒体 DHT 直播框架 Peer-to-Peer 视频数据分布式哈希表分布式索引

分类号 TP393 [自动化与计算机技术—计算机应用技术] TN943 [电子电信—信号与信息处理]

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1MONNERAT L, AMORIM C. D1HT: A Distributed One Hop Hash Table[C]// Proceedings of IPDPS’06, Rhodes Island, Greece: IEEE Computer Society, 2006: 26-35.
2TANG C, BUCO M,CHANG R, et al. Low Traffic Overlay Networks with Large Routing Tables [C]// Proceedings of ACM SIGMETRICS’05, Banff, Alberta, Canada: ACM Press, 2005: 62-73.
3FONSECA P, RODRIGUES R, GUPTA A, et al. Full Infonm-tion Lookups for Peer-to-Peer Overlays [J]. IEEE Transactions on Parallel and Distributed Systems, 2009,20(9): 1339-1351.
4ROWSTRON A, DRUSCHEL P. Pastry: Scalable, Decentralized Object Location and Routing for Large-Scale Peer-to-Peer Systems [C]// Proceedings of Middleware’01,Germany: Springer Press, 2001: 329-350.
5STOICA I,UBEN D, KARGER D, et al Chord: a Scalable Peer-to-Peer Lookup Protocol for Internet Applications [J], TEEF7ACM Transactions on Networking, 2003, 11(1): 17-32.
6ZHAO B, HUANG L, STRIBLING J, et al Tapestry: A Qob-al-Scale Overlay for Rapid Service Deployment [J]. IEEE Journal on Selected Areas in Communications, 2004, 22(1): 41-53.
7JIMENEZ R, OSMANI F,KNUTSSON B. Connectivity Properties of Mainline BitTorrent DHT Nodes [C]// Proceedings of IHEK International Conference on Peer-to-Peer Conputing’09, Aachen, Germany: THEK Press, 2009:262-270.
8Ii lichun, ZHANG Chunhong, MI Wei, et al SFDHT: A DHT Designed for Server Farm[C]// Proceedings of TKRF, OjOBECOM’09. Honolulu, Hawaii. USA: IEEE Press, 2009: 1-8.
9SKODZIK J, DANIEUS P,ALTMANN V. DuDE: A Distributed Computing System Using a Decentralized P2P Environment [C]// Proceedings of the 1卜上匕 36th Conference on Local Computer Networks, Clearwater, Florida, USA: ihhr Press, 2011: 1048-1055.
10YTU W P K, XING Jin, CHAN S H G. VMesh: Distributed Segment Storage for Peer-to-Peer Interactive Video Streaming [J]. IEEE Journal on Selected Areas in Communications, 2007,25(9): 1717-1731.

同被引文献38

1XIE Susu, U Bo, KEUNG G Y, et aL Coolstrea- ming: Design Theory and Practice[J]. IEEE Tran- sactions on Multimedia, 2007, 9(8): 1661-1671.
2PPLive[EBIOL]. [2012-9-18]. http://www.pplive. com.
3Joost[EB/OL]. [2012-9-18]. http://www.joost. com.
4UUSee[EB/OL]. [2012-9-18]. http://www.uusee. com.
5CHU Y H, RAO S G, SESHAN S, et al. A Case for End System Multicast[C]//Proceedings of ACM International Conference on Measurement and Modelling of Computer Systems (SIGMETR- ICS): June 18-21, 2000. Santa Clara, California, USA, 2000: 1-12.
6BAUMGART I, HEEP B, KRAUSE S. OverSim: A Scalable and Flexible Overlay Framework for Simulation and Real Network Applications [C]// Proceedings of IEEE 9th International Con- ference on Peer-to-Peer Computing (P2P'09): September 9-11, 2009. Seattle, WA, USA, 2009: 87-88.
7OverSim[EB/OL]. [2012-9-18]. http://www.over- sim.orq.
8FORTUNA R, LEONARDI E, MELUA M, et aL QoE in Pull Based P2P-TV Systems: Overlay Topology Design Trade-offs[C]// Proceedings of IEEE 10th International Conference on Peer- to-Peer Computing (P2P): August 25-27, 2001 Delft, the Netherlands, 2010: 1-10.
9FU T Z J, CHIU D M, LEI Zhibin. Designing QoE Experiments to Evaluate Peer-to-Peer Strea- ming Applications[C]//Proceedings of Visual Communications and Image Processing (VCIP): July 11-14, 2010. An'hui, China, 2010.
10ABBOUD O, ZINNER T, PUSSEP K, etal. A QoE- Aware P2P Streaming System Using Scalable Video Coding[C]//Proceedings of IEEE 10th Int- ernational Conference on Peer-to-Peer Com- puting (P2P): August 25-27, 2001. Delft, the Netherlands, 2010: 1-2.

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2房伟伟,李静远,刘悦,余智华,曹鹏,张凯.Twitter数据采集方案研究[J].山东大学学报（理学版）,2012,47(5):73-77. 被引量：4
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4Nathan Winters 李小轲(译).使用移动设备搜索Exchange全球通讯簿[J].Windows IT Pro Magazine（国际中文版）,2007(2):59-59.
5尤晋元,杨晔.基于Java的一种新型的分布式计算环境——Jini[J].铁路计算机应用,1999,8(2):1-3.
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9JIANG Jun-jie,TANG Fei-long,PAN Feng,WANG Wei-nong.Using bidirectional links to improve peer-to-peer lookup performance[J].Journal of Zhejiang University-Science A(Applied Physics & Engineering),2006,7(6):945-951. 被引量：1
10刘耀东.搜寻复杂表达式[J].电脑编程技巧与维护,1994,0(5):56-57.

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SDHT： Efficient One-Hop DHT Lookup Framework for P2P Live Streaming 被引量：2

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