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机载时间触发光网络的设计与实时性分析 被引量:1

Design and real-time analysis of time-triggered airborne optical network
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摘要 波分复用光(WDM)网络是目前较好的航空电子网络解决方案之一,具有高带宽、强灵活性、对协议和比特率透明、强扩展性等优点。但在实时性方面,WDM网络的消息传输存在不确定性,无法满足未来航空电子网络对于时间关键消息强实时性保障的要求。本文将时间触发机制引入WDM网络,设计了时间触发航空电子WDM(TTAWDM)网络的体系结构,包含协议栈、消息类型、调度流程等。TTAWDM用时刻调度表规划时间关键性消息的传输,保障消息传输过程和传输延时的确定性,以满足强实时性要求。在TTAWDM体系结构设计的基础上分析了网络消息的实时性,基于网络演算推导出速率限制消息的延时上界计算方法,并构造仿真实验展示了TTAWDM对于强实时性保障,同时验证了延时上界计算方法的有效性。 Wavelength division multiplexing( WDM) network is featured by almost unlimited bandwidth potential,great flexibility,strong expandability and transparent to protocol and bit rate,which makes it a good choice for avionics systems. However,the end-to-end delay of message transmitted on WDM avionics is uncertain on the real-time performance. WDM network cannot ensure determinacy for the time-critical message transmitted on future avionics network. This paper introduces time-triggered mechanism to WDM network and proposes the architecture of time-triggered avionics WDM( TTAWDM) network,including protocol layer,data format,scheduling procedure,etc. The time-triggered mechanism can process a statically configured communication schedule for time-critical message,which can ensure determinacy for the transmission process and end-to-end delay of message,and can meet real-time requirements. Then the real-time property of messages is analyzed based on the architecture design of TTAWDM,and based on network calculus,the calculation method of upper bound delay of rate-constrained messages is given. Finally,a simulation experiment of TTAWDM is conducted,and the results show that TTAWDM can be a totally deterministic network for time-critical messages and the calculation method of upper bound delay is effective.
作者 熊颖 陈俊延 何锋 熊华钢 刘成
机构地区 北京航空航天大学电子信息工程学院 国家计算机网络应急技术处理协调中心
出处 《北京航空航天大学学报》 EI CAS CSCD 北大核心 2017年第12期2466-2472,共7页 Journal of Beijing University of Aeronautics and Astronautics
基金 国家自然科学基金(61301086)~~
关键词 时间触发 波分复用(WDM)网络 体系结构 实时性 网络演算 time-triggered wavelength division multiplexing (WDM) network architecture real-time network calculus
分类号 TP393 [自动化与计算机技术—计算机应用技术] V247 [航空宇航科学与技术—飞行器设计]
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北京航空航天大学学报
2017年 第12期

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