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基于DiffServ的星上交换设计与仿真 被引量:2

Design and Simulation of DiffServ-oriented on-board Switch
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摘要 星上交换的设计在满足对综合业务QoS支持的同时,还需要考虑到星上实现复杂度和系统资源的限制。为此,基于DiffServ的思想,将(m,k)模型应用于地面业务到卫星业务的QoS映射,并通过双漏桶模型在业务增长时对星上数据进行有选择的控制,从而建立了一个实现复杂度低且可以有效保证综合业务QoS的星上交换框架。系统建模仿真结果表明,该设计方案在节省星上缓存资源的同时提高了系统性能,对业务的突发具有较好的平滑性。 The design of the on-board switches should satisfy two contradict requirements. On the one hand, it should consider providing a good QoS (Quality of Service) for multimedia services, and on the other hand, it should take into accountant the restriction of power consumption, buffer capacity and available technology of the space application. Therefore, based on the concept of DiffServ (Differentiated Service), an on-board switch framework was proposed, which satisfied QoS performance requirements and maintained a fairly low complexity. The (m, k) model was applied to the mapping between the terrestrial and satellite network traffic and the double-LB (leak bucket) model was used to control the traffic effciently. Simulation results show that the scheme significantly improves the QoS performance, smoothes the burst traffic and saves the on-board buffer reservation.
出处 《系统仿真学报》 CAS CSCD 北大核心 2008年第6期1397-1402,1422,共7页 Journal of System Simulation
关键词 卫星通信 星上交换 区分服务 (m k)模型 漏桶模型 satellite communication on-board switch DiffServ (m, k) model LB model
作者简介 宋莉(1979-),女,甘肃省兰州人,博士生,研究方向为卫星通信; 刘爱军(1970-),男,河北省邯郸市人,教授,硕导,研究方向为卫星通信; 马刈非(1947-),男,辽宁省锦州市人,教授,博导,研究方向为卫星通信网络。
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参考文献20

  • 1R Chaggara, M L Boucheret, et al. Continuous Phase Modulation for Future Satellite Communication Systems in Ka Band [C]//ICTTA. Damascus: IEEE, 2004, 4: 269-270.
  • 2Li W, Xinping Huang, Leung H. Performance Evaluation of Digital Beamforming Strategies for Satellite Communications [J]. IEEE Trans Aerospace and Electronic Systems (S0018-9251), 2004, 40(1): 12-26.
  • 3Jaime L Prieto, et al. Throughput Analysis of a Broadband Multimedia Satellite Fast-Packet Switch [EB/OL]. (199-08) [2006-10]. http://resources.zdnet.co.uk/whitepapers: TRW Space & Electronics Group/Network Systems, 1999.
  • 4Nicolas Courville. QoS-oriented, d Traffic Management in on-board Switches [C]//Proc International Workshop of COST Actions 272 and 280. Netherlands: ESA/ESTEC, 2003: 26-28.
  • 5Motoyama Y, Nakaya K, et al. Satellite Network Control System for SS-TDMA [C]//Proc International Symposium on Space Technology and Science 18^th. Sendai: NASA, 1992: 1517-1523.
  • 6Diakoumis P G, Wai-Chung Chan, et al. Evaluation of a Satellite- Switched CDMA (SS/CDMA) Demand Assignment System [J]. IEEE Selected Areas in Communications (S0733-8716), 1999, 17(2): 286-302.
  • 7Pong P Chu, William D Ivancic, et al. On-board Closed-loop Congestion Control for Satellite Based Packet Switching Networks [J]. International Journal of Satellite Communications (S0737-2884), 1994, 12(6): 555-568.
  • 8Sonia F, Raj J, Fang Lu, Shivkumar K. A Survey of Congestion Control Techniques and Data Link Protocols in Satellite Networks [EB/OL]. (1998-09) [2006-10]. http://arxiv.org/abs/cs/9809076.
  • 9Romano F, Roberto, et al. An Efficient DiffServ Switch for Satellite Communication Systems Based on Cellular Neural Networks [C]//Proc VTC 58^th. Orlando: IEEE, 2003: 2716-2720.
  • 10Yeong Min Jang, Estimation and Prediction-Based Connection Admission Control in Broadband Satellite Systems [J]. ETRI Journal (S 1225-6463), 2000, 22(4): 40-50.

二级参考文献7

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同被引文献35

  • 1卢珊珊,曹文忠,陈明辉.日本宽带多媒体卫星通信系统“WINDS”技术详解[J].卫星电视与宽带多媒体,2008(20):38-41. 被引量:1
  • 2吕蓉,曹志刚.卫星ATM网络中结合DA协议的接纳控制[J].清华大学学报(自然科学版),2005,45(7):943-946. 被引量:3
  • 3黎军,周诠.卫星ATM交换系统中一种连接允许控制算法的改进[J].宇航学报,2006,27(3):513-517. 被引量:7
  • 4肖丽萍,顾学迈,郭庆,刘功亮.基于蚂蚁算法的星上ATM交换结构[J].宇航学报,2007,28(4):932-935. 被引量:2
  • 5Charles W Bostian, William T Brandon, Alfred U Mac, et al. Key technology trends - Satellite systems[ J ]. Space Communications,2000,16(2 - 3) :97 - 124.
  • 6Tho Le - Ngoc. Switching for IP- Based Multimedia Satellite Communications [ J ]. IEEE Journal on Selected Areas in Communications, 2004,22 (3) : 462 - 471.
  • 7Yun A, Casas O, Dela Cuesta B, et al. AMERHIS Next Generation Global IP Services in the Space[ C] //Proceedings of the 5th Advanced Satellite Multimedia Systems Conference and the 11th Signal Processing for Space Communications. Cagliari: IEEE,2010:169 - 176.
  • 8Peter Takats, Martin Cote. SpaceMux: an on- board mesh processor[ J]. Space Communications, 2001, 17 ( 1 - 3) :203 - 213.
  • 9David Whitefield, Rajeev Gopal, Steven Arnold. Spaceway Now and in the Future: On - Board IP Packet Switching Satellite Communication Network [ C ] //Proceedings of Military Communications Conference. Washington DC: IEEE, 2006:1 - 7.
  • 10Rajeev Gopal, David Whitefield, Steve Arnold. Technology Readiness of Future Generation Networks Leveraging Regen- erative Satellite Mesh Architecture- A Spaceway Perspective [ C ]//Proceedings of Military Communications Conference. Washington DC: IEEE, 2006:1 - 7.

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