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WSN在航天器参量监测和多导弹作战中应用 被引量:2

Application of WSN Technology on Parameter Monitoring in Spacecraft and Campaign with More Missile
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摘要 与日益成熟的无线通信技术相比,传统的有线线缆监测与通信逐渐显现出其缺点与不足。无线传感器网络(WSN)技术的出现为航空航天设备间的通信、各种参量的监测、多武器信息共享与协同作战等开辟了一种新的无线思路。讨论了无线技术应用于航空航天的发展趋势,结合WSN理论,分析了WSN技术在未来航空航天领域应用的可行性,并以航天器内环境参量监测及数据传输、多导弹信息共享与协同作战为例,给出WSN技术在未来航空航天上的应用模型。WSN技术在未来航空航天上的成功应用将进一步推进其智能化发展。 Compared with the increasingly mature wireless communication technology,the traditional cable monitor and communication gradually shows its shortcomings and deficiencies.The emergence of wireless sensor network(WSN) technology opens up a new wireless thought for aeronautics and astronautics,such as the communication between the aerospace equipment,parameter monitoring,cooperative engagement with many weapons based on sharing information and so on.This paper discusses the development trend of the wireless technology used in the aerospace.Combined with the theory of WSN technology,paper analyzes the feasibility of WSN technology in the field of future aerospace applications.Taking the monitoring and data transmission of environment parameters in spacecraft and information sharing and cooperative engagement of more missile for example,two models are given to illustrate the application of WSN technology on future aeronautics and astronautics.The successful application of WSN technology in future aerospace and astronautics will promote its development of intelligent.
作者 王杰 姚宜东 李文 丁祝顺 李清洲
机构地区 北京航空航天大学自动化学院 北京航天控制仪器研究所
出处 《导航与控制》 2016年第2期13-17,共5页 Navigation and Control
关键词 无线传感器网络 航空航天 无线通信 参量监测 多导弹 协同作战 wireless sensor network(WSN) aeronautics and astronautics wireless communication parameter monitoring more missile cooperative engagement
分类号 V19 [航空宇航科学与技术—人机与环境工程]
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参考文献6

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共引文献764

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  • 1崔莉,鞠海玲,苗勇,李天璞,刘巍,赵泽.无线传感器网络研究进展[J].计算机研究与发展,2005,42(1):163-174. 被引量:730
  • 2Kiepert J,Loo S M,Klein D,et al. Wireless sensor network foraircraft cabin environment sensing[C] // Proc. of the 415; Inter-national Conference on Environmental, 2011.
  • 3Hall J A, Pook M L,Kiepert J,et al. Monitoring aircraft cabinparticulate matter using a wireless sensor networkHC]# Proc. ofthe ASth International Conference on Environment Systems,2013.
  • 4Jodeh N M, Cobb R, Livermore R A. Optimal airborne trajecto-ries for data collection from wireless sensor networks by directcollocation methods[C] // Proc. of the AIAA Guidance > Navi-gation ,and Control Conference . 2015.
  • 5Chen Y.Hadjitheodosiou M. Joint energy management and rou-ting in wireless sensor networks for space exploration [C] //Proc. of the 22nd AIAA International Communications SatelliteSystems Conference & Exhibit ,2004.
  • 6Zimdars A, Bose P. Optimal control of wireless sensor networksfor structural health monitoring[C] // Proc. of the AIAA 1st In-telligent Systems Technical Conference,2004.
  • 7Alena R.,Figueroa F, Ossenfort J. Intelligent wireless sensornetworks for spacecraft health monitoring for spacecraft healthmonitoring[C] // Infotech@Aerospace , 2012.
  • 8Tuggle R E. Multipath routing and sensor-wireless scheduling toreduce latency and packet loss over tactical wireless networks[C] //AIAA SciTech,2015.
  • 9李鹏.ZigBee网络性能分析及网络规划应用研究[D].武汉:华中师范大学,2011.
  • 10朱海荣,李平,程剑.基于改进PSO算法的WSN覆盖优化方法[J].计算机工程,2011,37(8):82-84. 被引量:15

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导航与控制
2016年 第2期

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