面向任务的航空数据链动态组网策略
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摘要
针对现有航空数据链网络对实际任务需求耦合不紧密的问题,结合未来航空作战集群化、智能化的特点,设计了面向任务的智能化航空数据链网络体系结构。描述了面向任务的智能化航空数据链网络信息类型与信息处理传递机制,并基于所设计体系结构提出了一种面向任务的航空数据链动态组网策略。通过组网实例分析,说明在面向任务的智能化航空数据链网络体系结构下所提组网策略对实际任务需求具有较好的支撑能力。
For the situation of lacking mission coupling in existing aeronautic data link network,a mission-oriented network architecture for intelligent data link network is designed,in view of the feature of clustering and intelligentization of future air combat. The detailed description on information type and information processing and transmission mechanism is presented for designed network architecture. Based on the designed architecture,a mission-oriented dynamic networking strategy is proposed. Through the analysis of networking case,illustrate that the proposed networking strategy based on the mission-oriented intelligent aeronautic data link network have stronger support for the actual mission demand.
For the situation of lacking mission coupling in existing aeronautic data link network,a mission-oriented network architecture for intelligent data link network is designed,in view of the feature of clustering and intelligentization of future air combat. The detailed description on information type and information processing and transmission mechanism is presented for designed network architecture. Based on the designed architecture,a mission-oriented dynamic networking strategy is proposed. Through the analysis of networking case,illustrate that the proposed networking strategy based on the mission-oriented intelligent aeronautic data link network have stronger support for the actual mission demand.
引文
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[2]DENG Y Y. Task allocation and path planning for acousticnetworks of AUVs[D]. Boca Raton:Florida AtlanticUniversity,2010.
[3]柯芳,涅乌希宾.飞行器智能控制系统研究进展[J].兵工学报,2010,31(7):939-949.
[4]DUAN H B,SHAO S,SU B W. Newdevelopment thoughts onthe bio-inspired intelligence based control for unmannedcombat aerial vehicle[J]. Science China TechnologicalSciences,2010,53(8):2025-2031.
[5]段俊花,朱怡安.基于群智能的多智能体系统体系结构设计与应用[J].西北工业大学学报,2012,30(1):124-128.
[6]蒋嶷川.网络结构化多Agent系统的任务分配[J].模式识别与人工智能,2012,25(2):262-272.
[7]沈林成,陈璟,王楠.飞行器任务规划技术综述[J].航空学报,2014,35(3):593-606.
[8]万路军,姚佩阳,孙鹏.有人/无人作战智能体分布式任务分配方法[J].系统工程与电子技术,2013,35(2):310-316.
[9] PERUMAL S,TABATABASE V,BARAS J S. ModelingTDMA-based USAP in JTRS MDL for multicast and unicasttraffic[C]//IEEE MILCOM,2010:1924-1929.
[10] YOUNG C D. USAP:A unifying dynamic distributedmultichannel TDMA slot assignment protocol[C]//IEEEMILCOM,1996:235-239.
[11] LEE J K,LEE K M,LIM J. Distributed dynamic slotassignment scheme for fast broadcast transmission intactical ad hoc networks[C]//IEEE MILCOM,2012:1-6.
[12]BAEK H,KO S,LIM J. Enhanced MAC protocol with newpacking for imagery transmission in link-16[C]//IEEEMILCOM,2014:891-896.
[13]崔昊,匡镜明,何遵文. Link16与VHF数据链互连建模与仿真研究[J].计算机工程与设计,2007,28(5),1119-1122.
[14] DEKKERr A H. C4ISR aechitectures,social networkanalysis and the FINC methodology;an experiment inminitary organization structure[R]. Astralia:DefenceScience and Technology Organisation Salisbury Electronicsand Survellance Research:AR012-129,2002.