基于超网络的航母编队作战体系建模分析
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摘要
编队体系作战是当前研究的热点问题,针对航母编队在信息化条件下的体系特征,采用超网络理论对编队体系进行研究。首先梳理超网络军事应用建模研究现状,并指出研究的不足;其次简述超网络概念,归纳编队作战体系超网络应用需求,并建立三层超网络模型;再次分析编队作战体系的网络节点度、超边度等超网络参数,对模型层网络的相关性、关联度进行研究;最后结合算例分析编队作战体系超网络特征,初步发现多层超网络中物理层网络、结构层网络的关联度、相关性较强,组织层网络对物理层网络的作用也比较明显,适合描述航母编队体系作战的运行和演化机制。
Combat of formation SoS is a hot issue in current research. In view of SoS characteristics of carrier formation under information conditions,the formation SoS is studied by using the theory of hypernetworks. Firstly,it is summarized military application modeling of supernetworks,and pointed out the shortcomings of the research. Secondly,it briefly introduces the concept of hypernetworks,summarizes application requirements of hypernetworks in formation combat SoS,and establishes a three-layer hypernetworks model. Thirdly,the network node degree and the hyperedge degree of the formation combat SoS are analyzed,and the dependency and correlation degree of the model layer networks are studied. Finally,in combining with case,analysis of the hypernetworks characteristic of formation combat SoS,preliminary findings multi-layer hypernetworks in physical layer network,structure layer network correlation,the dependency is stronger,the role of organization layers on the physical network is also obvious. It is suitable to describe the operation and mechanism of evolution of carrier combat SoS.
Combat of formation SoS is a hot issue in current research. In view of SoS characteristics of carrier formation under information conditions,the formation SoS is studied by using the theory of hypernetworks. Firstly,it is summarized military application modeling of supernetworks,and pointed out the shortcomings of the research. Secondly,it briefly introduces the concept of hypernetworks,summarizes application requirements of hypernetworks in formation combat SoS,and establishes a three-layer hypernetworks model. Thirdly,the network node degree and the hyperedge degree of the formation combat SoS are analyzed,and the dependency and correlation degree of the model layer networks are studied. Finally,in combining with case,analysis of the hypernetworks characteristic of formation combat SoS,preliminary findings multi-layer hypernetworks in physical layer network,structure layer network correlation,the dependency is stronger,the role of organization layers on the physical network is also obvious. It is suitable to describe the operation and mechanism of evolution of carrier combat SoS.
引文
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[12]朱江,刘大伟,李翼鹏.作战超网络多Agent模型[J].计算机科学,2012,39(7):44-47.
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[16]Ernesto E,Rodriguez-Velazquez J A.Subgraph centrality and clustering in complex hypernetworks[J].Physical A,2006,364(1):581-594.
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[19]刘胜久,李天瑞,洪西进,等.超网络模型构建及特征分析[J].计算机科学与探索,2017,11(2):194-211.
[20]Hu Feng,Zhao Haixing,Ma Xiujuan.An evolving hypernetwork model and properties[J].Scientia Sinica Physica,Mechanica&Astronomia,2013,43(1):16-22.
[2]李浩,王公宝.基于模糊AHP评判的外军航母编队作战效能评估[J].兵工自动化,2009,28(3):26-28.
[3]张永利,周荣坤,计文平,等.基于模糊综合评判法的航母编队舰载机群体作战效能评估[J].舰船电子工程,2015,35(10):117-121.
[4]Jeffery R.Cares.An Information Age Combat Model[C].9th International Command and Control Research and Technology Symposium,2004.
[5]谭跃进,张小可,杨克巍.武器装备体系网络化描述与建模方法[J].系统管理学报,2012,21(6):781-786.
[6]胡晓峰,贺筱媛,饶德虎.基于复杂网络的体系作战能力分析方法研究[J].复杂系统与复杂性科学,2015,12(2):9-17.
[7]司光亚,王艳正,李仁见,等.指挥控制体系网络化建模研究与实践[J].指挥与控制学报,2015,1(1):19-24.
[8]王飞,司光亚,荣明,等.武器装备体系的异质超网络模型[J].系统工程与电子技术,2015,37(9):2052-2060.
[9]张杰勇,蓝羽石,易侃,等.网络中心化C4ISR系统结构与超网络模型[J].指挥信息系统与技术,2014,5(5):1-6.
[10]李仁见,司光亚,张昱,等.基于超网的体系效能可视化分析[J].系统仿真学报,2014,29(9):1944-1949.
[11]高翔,吴林,刘洋.基于加权超网模型的武器装备体系效能分析[J].指挥与控制学报,2015,1(2):175-180.
[12]朱江,刘大伟,李翼鹏.作战超网络多Agent模型[J].计算机科学,2012,39(7):44-47.
[13]Berge C.Graphs and Hypergraphs[M].2nd ed.New York:Elsevier,1973:389-413.
[14]Berge C.Hypergraphs:combinatorics of finite sets[M]3rd ed.Amsterdam:North-Holl,1989:1-39.
[15]Ernesto E,Rodriguez-Velazquez J A.Subgraph centrality in complex networks[J].Physical Review E,2005,71(2):056103.
[16]Ernesto E,Rodriguez-Velazquez J A.Subgraph centrality and clustering in complex hypernetworks[J].Physical A,2006,364(1):581-594.
[17]Nagurney A.Dong J.2002 Supernetworks:DecisionMaking for the information Age[M].Cheotenham:Edward Elgar Publishers.
[18]Boccaletti S,Bianconi G,Griado R.The Structure and Dynamics of Multilayer Networks[J].Physics Reports,2014,544(1):1-122.
[19]刘胜久,李天瑞,洪西进,等.超网络模型构建及特征分析[J].计算机科学与探索,2017,11(2):194-211.
[20]Hu Feng,Zhao Haixing,Ma Xiujuan.An evolving hypernetwork model and properties[J].Scientia Sinica Physica,Mechanica&Astronomia,2013,43(1):16-22.