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基于多令牌协议航电WDM光环网波长分配方法 被引量:2

Wavelength Assignment for Avionic WDM Optical Ring Network Based on Multi-tokens Protocol
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摘要 针对航空电子光网络的实时性问题,建立了航空电子波分复用(WDM)环网模型,以实时消息流矩阵作为网络的输入,依据静态光网络最小化波长数目的优化目标,提出了一种基于多令牌协议的光网络波长分配方法,并推导了航电光网络中光通道的端到端传输时延计算公式。通过对理论计算和仿真结果的分析,此协议下的波长分配方法在网络中可以实现波长重用,比传统环网的波长数目平均降低了58.1%,优化了波长数目,并且多令牌控制协议满足航空电子网络对消息实时性的要求。此方法对于航空电子光网络的设计与性能分析具有参考价值。 To guarantee the real-time performance of an avionic optical network, a model of avionic wavelength division multiplexing (WDM) optical network is built with real-time message flow matrix as the input. According to the optimized aim of minimizing the number of wavelengths in a static optical network, a method of wavelength assignment based on multi-to-kens with a priority protocol is proposed, and then the analytical transmission delay expression of an end-to-end system in the optical channel is derived from the proposed protocol. The analytical results show that by using the multi-tokens protocol, the number of wavelengths is reduced by 58. 1% as compared with the conventional method, The protocol method optimizes the number of wavelengths, and allows their reuse in network implementation. Multi-tokens with a priority protocol can satisfy the real-time performance demands of avionic networks. A comparison between the theoretical calculation and analysis of simulation results shows that the proposed protocol has the prospect of being applied to the design and performance evaluation of avionic optical networks.
作者 刘晓敏 丁凡 赵长啸 熊华钢 屠晓杰
机构地区 北京航空航天大学电子信息工程学院
出处 《航空学报》 EI CAS CSCD 北大核心 2012年第5期879-885,共7页 Acta Aeronautica et Astronautica Sinica
基金 国家自然科学基金(60879024)~~
关键词 航空电子 光网络 波分复用(WDM) 路由与波长分配(RWA) 令牌协议 avionics optical network wavelength division multiplexing (WDM) routing and wavelength assignment (RWA) token protocol
分类号 V243.1 [航空宇航科学与技术—飞行器设计] 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14

  • 1Gardner R D, Andonovic I, Hunter D K, et al. PHO- NAV--a photonic WDM network architecture for next generation avionics systems. Proceedings IEEE Aerospace Conference. 1999(2) : 6-13.
  • 2Gardner R D, Andonovic I, Hunter D K, et al. High performance photonic avionics networking using WDM. Proceedings of IEEE Conference on Military Communications. 1999, 2(1): 958-962.
  • 3Habiby S F. Advances in WDM LAN standards development for aerospace applications. Proceedings of IEEE Conference on Avionics Fiber-Optics and Photonics.2006: 20-21.
  • 4Reardon C, Profumo J, George A. Comparative simulative analysis of WDM LANs for avionics platforms. Proceedings of IEEE Conference on Military Communications. 2006: 3187-3193.
  • 5高志国,陈宏伟,陈明华,谢世钟.一种新型的光分组交换环网体系结构[J].光电子.激光,2005,16(10):1206-1210. 被引量:2
  • 6Koohi S, Hessabi S, Yoo S J B. An optical wavelength switching architecture for a high-performance low-power photonic network on chip. IEEE Workshops of International Conference on Advanced Information Networking and Application. 2011: 1-6.
  • 7周立,赵然,于航,熊华钢.航空电子WDM网络的实时性能分析[J].北京航空航天大学学报,2009,35(11):1408-1412. 被引量:8
  • 8熊华钢,周贵荣,李峭.机载总线网络及其发展[J].航空学报,2006,27(6):1135-1144. 被引量:67
  • 9林强,熊华钢,张其善.光纤通道交换机在强实时约束下的分组调度[J].计算机学报,2006,29(4):570-575. 被引量:9
  • 10Rouskas G N. Routing and wavelength assignment in optical WDM network. Proakis J G, ed. Encyclopedia of Telecommunication. New York: John Wiley & Sons, 2010: 1-10.

二级参考文献37

  • 1Fan Cen,Tao Xing,Ke-Tong Wu.Real-time Performance Evaluation of Line Topology Switched Ethernet[J].International Journal of Automation and computing,2008,5(4):376-380. 被引量:4
  • 2林强,熊华钢,张其善.光纤通道仲裁环流量控制中信誉的确定方法[J].航空学报,2004,25(6):602-605. 被引量:9
  • 3Gardner R D, Andonovic I, Hunter D K, et al. PHONAV-a photonic WDM network architecture for next generation avionics systems[ C ]// IEEE Aerospace Conference. Snowmass: Institude of Eleetic and Electronic Engineer, 1999, 2:451 -466.
  • 4Salour M M, Bellamy J C. A WDM optical network for avionics [ C ]//Avionics Fiber-Optics and Photonics, IEEE Conference. USA:[ s. n. ] ,2005:13 - 14.
  • 5Habiby S F, Advances in WDM LAN standards development for aerospace applications[ C ]//Avionics Fiber-Optics and Photonics, IEEE Conference. 2006:20 - 21.
  • 6Reardon C, Profumo J, George A D. Comparative simulative analysis of WDM LANS for avionics platforms [ C ]//Military Communications Conference . Washington : [ s. n. ] ,2006 : 1 - 7.
  • 7Harres D N. Current state and future direction for military aircraft fiber optics networks [ C ]//Digital Avionics Systems Conference. Indianapolis : DASC, 2003:6. B. 2 - 6.1 - 8.
  • 8Jessop C N, Jenkins R B, Voigt R J. Routing in an oplical local area network using wavelength conversion[ C ]//Avionics FiberOptics and Photonies, IEEE Conference. 2006:24 - 25.
  • 9Mifdaoui A, Frances F, Fraboul C. Full duplex switched ethernet for next generation " 1553B"-based applications [ C ]//Real Time and Embedded Technology and Applications Symposium. 2007:45 - 56.
  • 10Buyer M, Fraboul C. Tightening end to end delay upper bound for AFDX network calculus with rate latency FIFO servers using network calculus[ C ]//Factory Communication Systems. 2005 : 11- 20.

共引文献81

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二级引证文献8

航空学报
2012年 第5期

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