A Weapon-target Assignment in Air-defense Operations Based on Shooting Probability Constraint

被引：0

作者：

Zhi H. ^{[1
]}

Zhao P. ^{[1
]}

Li Z. ^{[1
]}

Peng X. ^{[1
]}

Lu X. ^{[1
]}

Wang C. ^{[1
]}

机构：

[1] Zhengzhou Campus, PLA Army Academy of Artillery and Air Defense, Zhengzhou

来源：

Binggong Xuebao/Acta Armamentarii | 2022年 / 43卷 / 04期

关键词：

Air-defense operation; Fire transfer time; Nonlinear adaptive inertia weight; Shooting probability; Weapon-target assignment;

D O I：

10.12382/bgxb.2021.0177

中图分类号：

学科分类号：

摘要：

A novel weapon-target assignment model based on shooting probability constraint is proposed in which the impact of shooting probability on the effectiveness of air-defense operations is considered. The proposed model takes many factors into account, such as shooting probability, air strikes intensity, and fire transfer time of firepower unit. The proposed can give priority to using firepower units with quick response to intercept the targets with short flying time on the premise of meeting the thresholds of shooting probability and joint damage probability. At the same time, it minimizes the consumption of fire resources to provide continuous combat capability for the air-defense system.On this basis, an improved equilibrium optimizer algorithm based on nonlinear adaptive inertia weight is presented to solve the weapon-target assignment problem. The Tent chaotic map is used to generate the initial population to enhance the diversity of the population. And the inertia weight is introduced to balance local search and global search ability, which effectively improves the optimization ability of the algorithm. Simulated results verify the advantages of the proposed model and the effectiveness of the optimization algorithm. © 2022, Editorial Board of Acta Armamentarii. All right reserved.

引用

页码：952 / 959

页数：7

共 21 条

[1] ZHANG Z L, WU W D., Method of aptitudinally distributing firepower in aerial defence, Fire Control and Command Control, 31, 2, pp. 75-77, (2006)
[2] DONG C Y, LU Y, WANG Q., Improved genetic algorithm for solving firepower distribution, Acta Armamentarii, 37, 1, pp. 97-102, (2016)
[3] HUANG L W, XU P G, WANG Q., Firepower distribution problems based on Hungarian method, Fire Control and Command Control, 32, 6, pp. 25-28, (2007)
[4] WANG J P., A firepower assignment model for air defense group (corps) based on genetic algorithm, Computer Simulation, 23, 6, pp. 9-12, (2006)
[5] RUAN M Z, LI Q M, LIU T H., Modeling and optimization on fleet antiaircraft firepower allocation, Acta Armamentarii, 31, 11, pp. 1525-1529, (2010)
[6] LI Y, DONG Y N., Weapon-target assignment based on simulated annealing and discrete particle swarm optimization in cooperative air combat, Acta Aeronautica et Astronautica Sinica, 31, 3, pp. 626-631, (2010)
[7] XIA W, LIU X X, FAN Y T, Et al., Weapon-target assignment with an improved multi-objective particle swarm optimization algorithm, Acta Armamentarii, 37, 11, pp. 2085-2093, (2016)
[8] GUO Y H, LI Y T, YANG F Y., Mutation ant colony algorithm for weapon-target assignment problem based on threshold of damage probability, Journal of Gun Launch & Control, 27, 4, pp. 1-5, (2006)
[9] WANG X Y, LIU Z W, HOU C Z, Et al., Modeling and decision-making of multi-target optimization assignment for aerial defence weapon, Acta Armamentarii, 28, 2, pp. 228-231, (2007)
[10] YANG F, WANG Q, HOU Y Z., Weapon-target assignment in multi-launcher system based on improved integer field particle swarm optimization algorithm, Acta Armamentarii, 32, 7, pp. 906-912, (2011)

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