Genetic algorithm approach to the jammer′s layout for EW
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摘要: 电子对抗干扰资源任务规划问题对于充分发挥干扰机作战效能,取得最佳干扰效益有重要作用.结合现代电子战特点,利用搜索论推导出了干扰机压制概率的计算公式,建立了干扰任务分配模型,并阐述了传统匈牙利方法在这一问题处理上的局限性.结合智能优化算法,提出了基于遗传算法的干扰资源优化分配模型.解决了优化分配模型所需的符号编码方式,并给出了相关的选择、交叉、变异等遗传算子的具体设计.利用该模型,解决了2个实例.结果表明,该模型在干扰资源任务配置问题上具有很强的实用性,遗传算法可以有效地辅助指挥员解决干扰资源部署决策这一复杂而困难的问题.Abstract: The assignment problem of jamming resource for electronic warfare(ECM) plays a key role in utilizing jammer sufficiently and obtaining the optimal jamming effect. According to characteristics of modern electronic warfare(EW), the calculation formula of jammer′s avoidance ratio was investigated by use of search theory. The jamming force optimization apportion model was presented, and the limitation for Hungary method in settling this problem was illustrated. So combined with the intelligent optimization algorithm, a jamming force optimization apportion model based on genetic algorithm(GA) was presented. The symbol encoding style what was needed for the optimization apportion model was solved, and selection operator, cross operator and mutation operator were designed concretely. Two application examples were resolved using this model. The results show good practicability of the model, and the GA presented is effective and practical. GA can efficiently help commanders solve the complicate and difficult problem of jammer′s layout.
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Key words:
- electronic warfare /
- genetic algorithm /
- encoding
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[1] Parsopoulos K E,Vrahatis M N.Recent approaches to global optimization problems through particle swarm optimization[J].Natural Computing,2002,1(2-3):235-306 [2] 李杨,王占林,裘丽华. 机载机电设备综合控制管理系统任务分配研究 . 北京航空航天大学学报,1999,25(5):527-530 Li Yang, Wang Zhanlin, Qiu Lihua. Study of task assignment of aircraft onboard machine-electronic equipment control and management integrated[J].Journal of Beijing University of Aeronautics and Astronautics,1999,25(5):527-530(in Chinese) [3] 方卫国, 师瑞峰. 飞机方案多目标优化的Pareto遗传算法[J].北京航空航天大学学报,2003,29(8):668-672 Fang Weiguo, Shi Ruifeng. Pareto genetic algorithms for multi-objective optimization of aircraft conceptual design[J].Journal of Beijing University of Aeronautics and Astronautics,2003,29(8):668-672(in Chinese) [4] Whitley D, Rana S, Dzubera J.Evaluating evolutionary algorithms . Artificial Intelligence,1996,85(1-2):245-276 [5] 周明,孙树栋. 遗传算法原理及应用[M]. 北京:国防工业出版社,1999:4-8 Zhou Ming,Sun Shudong. Genetic algrithms:theory and applications[M]. Beijing:National Defence Industry Press,1999:4-8(in Chinese) [6] Obayashi S, Sasaki D, Takeguchi Y,et al.Multiobjective evolutionary computation for supersonic wing-shape optimization[J]. IEEE Trans Evol Comput,2000,4(2):182-187 -
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