Combat Effectiveness Evaluation of UAV Intelligent Swarm Based on AHP-Fuzzy Comprehensive Evaluation
DOI:
https://doi.org/10.54097/hfatpk06Keywords:
Efficiency evaluation, UAV intelligent swarm, AHP, fuzzy comprehensive evaluation.Abstract
In order to evaluate the combat effectiveness of UAV intelligent swarm, this paper puts forward the establishment of UAV intelligent swarm combat effectiveness evaluation index system based on availability, credibility and combat ability, analyzes the factors affecting the combat effectiveness of UAV intelligent swarm, establishes the effectiveness evaluation model, determines the weight of each factor by AHP, and evaluates the effectiveness index by fuzzy evaluation matrix. Using this method to evaluate the combat effectiveness of UAV intelligent swarm, the evaluation result is objective and reasonable, which provides theoretical reference for the optimal design and use of UAV intelligent swarm system.
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[1] Zhang Yongli, Zhou Rongkun, Ji Wenping, et al. Evaluation of Combat Efficiency of Carrier based Air Fleet System Based on Fuzzy Comprehensive Evaluation Method [J]. Ship Electronic Engineering, 2015, 35 (10): 117-121
[2] Wu Chunlin, Guo Sanxue. Operational Efficiency Evaluation of Counter Terrorism Equipment System Based on Fuzzy Analytic Hierarchy Process [J]. Equipment Environment Engineering, 2018, 15 (11): 129-133
[3] Li Yiheng. Research on the Evaluation Method of Task oriented Helicopter Overall Plan [D]. Nanjing: Nanjing University of Aeronautics and Astronautics, 2019
[4] Shi Quan, Wang Lixin, Shi Xianming, et al. System decision-making and modeling [M] National Defense Industry Press: Beijing, 2016:108
[5] Bi Changjian, Dong Dongmei, Zhang Shuangjian, et al. Effectiveness evaluation of combat simulation training [M] Beijing: National Defense Industry Press, 2014: 29
[6] Ma Miao, Guo Sanxue, Wang Shibei. Evaluation of Anchor Combat Efficiency Based on Fuzzy Analytic Hierarchy Process [J]. Firepower and Command Control, 2019, 44 (10): 66-70
[7] Liu Chunlai, Guo Sanxue, Gao Yiqi Evaluation of the operational effectiveness of non lethal explosive shells based on fuzzy analytic hierarchy process [J] Firepower and Command Control, 2014 (3): 60-68
[8] Wu Yongle, Liu Tielin, Li Sanqun, et al. Risk assessment of weapon and equipment system application based on fuzzy comprehensive evaluation [J]. Firepower and Command Control, 2018, 43 (10): 74-78
[9] Yao Tianle, Tao Fenghe, Qi Ziyuan, et al. Evaluation of Self Propelled Artillery Combat Capability Using Fuzzy Comprehensive Evaluation Method Based on Distance Optimization [J]. Journal of Artillery Launch and Control, 2018, 39 (4): 26-37
[10] Guo Hui, Xu Haojun, Ren Bo. Evaluation of the combat effectiveness of early warning aircraft based on fuzzy comprehensive evaluation [J]. Practice and Understanding of Mathematics, 2012, 42 (4): 102-106
[11] Zhu Wenxiu, Song Jian, Li Ling. Evaluation of Information and Communication Training Effectiveness Based on Fuzzy Comprehensive Evaluation Method [J]. Ship Electronic Engineering, 2019, 39 (6): 129-132
[12] Zhang Yongli, Sun Zhishui, Zhou Rongkun. Evaluation of the effectiveness of coordinated combat between manned and unmanned aerial vehicles based on AHP fuzzy comprehensive evaluation method [J]. Ship Electronic Warfare, 2015, 38 (6): 80-92
[13] Feng Xin, Wei Yi. Research on Simulation Training Effect Evaluation Based on AHP and Fuzzy Comprehensive Evaluation [J]. Journal of Chongqing University of Communications, 2015, 34 (4): 43-46
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