基于CPS的海洋侦察监视系统多层次QoS分析
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- 英文论文题名:Multi-Level QoS Analysis for Marine Reconnaissance and Surveillance Systems Based on Cyber-physical Systems
- 论文作者:杨志才 ; 王智雄 ; 李含霜 ; 张傲
- 英文论文作者:YANG Zhi-cai ; WANG Zhi-xiong ; LI Han-shuang ; ZHANG Ao ; Jiuquan Satellite Launch Centre
- 年:2017
- 作者机构:酒泉卫星发射中心;
- 论文关键词:海洋侦察监视系统 ; 信息物理融合系统 ; 功能层次 ; QoS
- 英文论文关键词:Marine Reconnaissance and Surveillance Systems ; Cyber-Physical Systems(CPS) ; Functional Layer ; Quality of Service(QoS)
- 会议召开时间:2017-07-03
- 会议录名称:第五届中国指挥控制大会论文集
- 语种:中文
- 分类号:E933
- 学会代码:ZHKZ
- 会议名称:第五届中国指挥控制大会
- 会议地点:中国北京
- 主办单位:中国指挥与控制学会
- 学会名称:中国指挥与控制学会
- 页数:6
- 文件大小:1511k
- 原文格式:D
- 会议级别:全国
摘要
为全面分析海洋侦察监视系统效能,本文结合信息物理融合系统(CPS)体系结构思想,将海洋侦察监视系统依据功能层次划分为感知层、网络层、服务层和控制层,并详细分析各层功能特征,提取关键服务质量QoS指标,衡量海洋侦察监视系统各功能层次性能,从而实现多层次全面衡量其系统效能。最后,进行了实例分析,并采用雷达图直观、清晰地展示各层QoS性能,分析结果表明,本方法能够有效衡量系统效能,为海洋侦察监视系统的构建、优化、决策等提供重要信息。
In order to analyze the effectiveness of marine reconnaissance and surveillance system comprehensively, we divide marine reconnaissance and surveillance system into the sensing layer, the network layer, the service layer and the control layer according to the architecture of Cyber-Physical Systems(CPS). Then the functional characteristics of each layer are analyzed in details to extract indicators of key quality of service(QoS), for measuring the performance of each functional layer in marine reconnaissance and surveillance system. So, we can comprehensively measure system performance from its multi-level feature. Finally, the analysis of a case for marine reconnaissance and surveillance system is carried out, and the performance of each functional layer is demonstrated by radar chart. The results show that this method can effectively measure the system performance and provide important information for the construction, optimization and decision of marine reconnaissance and surveillance system.
In order to analyze the effectiveness of marine reconnaissance and surveillance system comprehensively, we divide marine reconnaissance and surveillance system into the sensing layer, the network layer, the service layer and the control layer according to the architecture of Cyber-Physical Systems(CPS). Then the functional characteristics of each layer are analyzed in details to extract indicators of key quality of service(QoS), for measuring the performance of each functional layer in marine reconnaissance and surveillance system. So, we can comprehensively measure system performance from its multi-level feature. Finally, the analysis of a case for marine reconnaissance and surveillance system is carried out, and the performance of each functional layer is demonstrated by radar chart. The results show that this method can effectively measure the system performance and provide important information for the construction, optimization and decision of marine reconnaissance and surveillance system.
引文
[1]邓捷坤,谢井,时统业.海上侦察监视能力建设的对策思考[J].航天电子对抗,2012,28(6):48-51.
[2]Krepinevich Andrew F.Why Air-Sea Battle[M].CSBA,Washington,2010:1-52.
[3]白蕴芳.东海防空识别区的战略意义[J].管理观察,2014,29(10):35-36.
[4]童志鹏,刘兴.综合电子信息系统(第二版)[M].北京:国防工业出版社,191-263.
[5]Krepon M,Katz-Hyman M.Space Weapons and Proliferation[J].Nonproliferation Review,2005,12(2):323-341.
[6]刘鹏.试析美军“空海一体战”的特点与问题[J].现代国际关系,2010,30(9):21-26.
[7]基于SOA和CPS的潜艇作战系统体系结构框架研究[J].舰船电子对抗,2013,36(5):1-5.
[8]天基海洋目标监视的系统分析及相关研究综述[J].宇航学报,2010,31(3):628-640.
[9]Lee E A,Seshia S A.Introduction to embedded systems:A cyber-physical systems approach[M].Berkeley:Lee&Seshia,2011:1-15.
[10]Baheti R,Gill H.Cyber-physical systems[M]//The Impact of Control Technology,Washington D C,USA:IEEE 2011:161-166.
[11]Wan Jiafu,Yan Hehua,Suo Hui,et al.Advances in Cyber-Physical Systems Research[J].KSII Transactions on Internet&Information Systems,2011,5(11):1891-1908.
[12]李玲,刘敏,成国庆.一种基于FAHP的多维Qo S局部最优服务选择模型[J].计算机学报,2015,38(10):1997-2010.
[13]辛斌,陈杰,彭志红.智能优化控制:概述与展望[J].自动化学报,2013,39(11):1831-1848.
[14]朱竹青.关于海上作战中海天联合侦察监视的研究[J].火力与指挥控制,2011,36(6):161-164.
[15]艾正海.关于多目标决策问题的理想点法研究[D].西南交通大学硕士学位论文,2007.
[16]孙乃聪.专家评分法在方案技术分析中的应用[J].西安文理学院学报:自然科学版,2013,16(1):125-128.
[17]李国栋,李庚银,杨晓东,周明.基于雷达图法的电能质量综合评估模型[J].电力系统自动化,2010,34(14):70-74.
[18]Wolf M.High-Performance Embedded Computing:Applications in Cyber-Physical Systems and Mobile Computing[M].Newnes,USA,2014:78-92.
[2]Krepinevich Andrew F.Why Air-Sea Battle[M].CSBA,Washington,2010:1-52.
[3]白蕴芳.东海防空识别区的战略意义[J].管理观察,2014,29(10):35-36.
[4]童志鹏,刘兴.综合电子信息系统(第二版)[M].北京:国防工业出版社,191-263.
[5]Krepon M,Katz-Hyman M.Space Weapons and Proliferation[J].Nonproliferation Review,2005,12(2):323-341.
[6]刘鹏.试析美军“空海一体战”的特点与问题[J].现代国际关系,2010,30(9):21-26.
[7]基于SOA和CPS的潜艇作战系统体系结构框架研究[J].舰船电子对抗,2013,36(5):1-5.
[8]天基海洋目标监视的系统分析及相关研究综述[J].宇航学报,2010,31(3):628-640.
[9]Lee E A,Seshia S A.Introduction to embedded systems:A cyber-physical systems approach[M].Berkeley:Lee&Seshia,2011:1-15.
[10]Baheti R,Gill H.Cyber-physical systems[M]//The Impact of Control Technology,Washington D C,USA:IEEE 2011:161-166.
[11]Wan Jiafu,Yan Hehua,Suo Hui,et al.Advances in Cyber-Physical Systems Research[J].KSII Transactions on Internet&Information Systems,2011,5(11):1891-1908.
[12]李玲,刘敏,成国庆.一种基于FAHP的多维Qo S局部最优服务选择模型[J].计算机学报,2015,38(10):1997-2010.
[13]辛斌,陈杰,彭志红.智能优化控制:概述与展望[J].自动化学报,2013,39(11):1831-1848.
[14]朱竹青.关于海上作战中海天联合侦察监视的研究[J].火力与指挥控制,2011,36(6):161-164.
[15]艾正海.关于多目标决策问题的理想点法研究[D].西南交通大学硕士学位论文,2007.
[16]孙乃聪.专家评分法在方案技术分析中的应用[J].西安文理学院学报:自然科学版,2013,16(1):125-128.
[17]李国栋,李庚银,杨晓东,周明.基于雷达图法的电能质量综合评估模型[J].电力系统自动化,2010,34(14):70-74.
[18]Wolf M.High-Performance Embedded Computing:Applications in Cyber-Physical Systems and Mobile Computing[M].Newnes,USA,2014:78-92.
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