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| U.S. Army NIFC-CA Kill Chain System Simulation Design and Evaluation |
| JIANG Ruiqi1, XU Jinlong2, NI Hanqi1, SHI Xingyu3, ZHANG Wei1, HE Zishu1 |
| 1. School of Information and Communication Engineering, University of Electronic Science and Technology of China, Chengdu 611731, Sichuan, China; 2. Shanghai Electro-Mechanical Engineering Institute, Shanghai 201109, China;
3. Chengdu Nano Radar Technology Co., Ltd., Chengdu 611731, Sichuan, China |
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Abstract Given the problems of the difficulty in multi-platform kill chain simulation, unclear kill assessment indexes, and the lack of close integration with the actual scenarios, the practical implementation of the kill chain in combat situation simulations was studied using the U.S. Army's NIFC-CA kill chain. Firstly, the characteristic information of target nodes was designed, and customized reconnaissance node effectiveness evaluation indexes were designed for E-2D AWACS, F-35 fighter jets and Aegis ship platforms in the NIFC-CA kill chain. It associated the NIFC-CA kill chain with the reconnaissance nodes and also connected the reconnaissance node effectiveness evaluation indexes with the target node information, and evaluated the level of the reconnaissance node's effectiveness in the detection of different targets. Secondly, the influence nodes were introduced to characterize the interference of the reconnaissance node in the combat scenario and the anti-interference effectiveness level of the reconnaissance node itself. Then, the target node, influence node, and reconnaissance node were correlated using a state transfer matrix, and the reconnaissance node, command node, and strike node were correlated using dependency analysis of the Functional Dependency Network Analysis (FDNA), giving the quantitative value of the overall killing capability of different killing chains. Finally, the simulation design of the kill chain model was carried out in the form of an adjacency table.
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Received: 10 July 2024
Published: 23 November 2024
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| [1] |
RUAN Kaizhi, SUN Xuean, TONG Yun , LIANG Shuo, XU Tianyang. Concept of Future Intelligent Kill Web[J]. Air & Space Defense, 2024, 7(3): 27-33. |
| [2] |
ZHAO Renxing, WANG Ling, FENG Mingyue, JIA Wentong. Analysis of Combat Concept of "Mosaic Warfare" and Countermeasures[J]. Air & Space Defense, 2021, 4(3): 48-54. |
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2024, Vol. 7 
