Optimized formation assignment for large-scale air fleet using fuzzy clustering and genetic algorithm
-
摘要: 针对当前机群的编队分配存在效率低、编队分配结果不可靠、智能性差等问题,提出了一种新的结合遗传算法和模糊聚类算法的机群编队最优分配方法.该混合算法通过模糊聚类算法解决了机群的编队分配不确定性问题,并且通过对传统遗传操作算子的改进,采用改进的遗传算法有效地克服了模糊聚类算法容易陷入局部极小值和对初始条件敏感的缺点,使机群的编队分配能快速收敛至全局最优解.3组不同分布类型的机群编队分配算例结果表明,该混合算法具有较好的通用性、有效性和智能性,适用于机群的编队最优分配.Abstract: Aiming at the low efficiency, fallibility of formation assignment result and lack of intelligence in optimized formation assignment for large-scale air fleet, a new hybrid genetic fuzzy clustering algorithm (GFCA) was proposed for large-scale air fleet optimized formation assignment by incorporating the fuzzy clustering algorithm into the genetic algorithm (GA). The GFCA solved the uncertainty problem of formation assignment for air fleet by fuzzy clustering algorithm, avoided the local minima and was robust to initialization by using improved GA, with new genetic arithmetic operators, so as to obtain the global optima for formation assignment quickly. The results of two examples show that the GFCA has better generalization, effectiveness and intelligence, and it is applicable to optimized formation assignment for large-scale air fleet.
-
Key words:
- formation assignment /
- fuzzy clustering /
- genetic algorithms /
- optimization
-
[1]张科施,王正平.基于遗传模拟退火算法的空战编队优化研究[J].西北工业大学学报,2003,21(4)477-480 Zhang Keshi, Wang Zhengping. On optimizing largescale aircombat formation with simulatedannealing genetic algorithm[J]. Journal of Northwestern Polytechnical University, 2003, 21(4):477-480(in Chinese) [2]Patrick C H Ma, Keith C C Chan, Xin Yao, et al. An evolutionary clustering algorithm for gene expression microarray data analysis[J]. IEEE Transactions on Evolutionary Computation, 2006, 10(3):296-314 [3]Bezdek J C. Pattern recognition with fuzzy objective function algorithms[M]. New York: Plenum Press, 1981:43-93 [4]Nikhil R Pal, Kuhu Pal, James M Keller, et al. A possibilistic fuzzy cmeans clustering algorithm[J]. IEEE Transactions on Fuzzy Systems, 2005, 13(4):517-530 [5]Holland J H. Genetic algorithms[J]. Scientific American, 1992,(9):44-50 [6]Vasconcelos J A, Ramirez J A, Takahashi R H C, et al. Improvements in genetic algorithms[J]. IEEE Transactions on Magnetics, 2001, 37(5):3414-3417 [7]Choe H, Jordan J B. On the optimal choice of parameters in a fuzzy cmeans algorithm[C]Proceedings of The 1st IEEE International Conference on Fuzzy Systems. San Diego, CA, USA: IEEE, 1992: 349-354 [8]Shen Yi, Shi Hong, Zhang Jianqiu. Improvement and optimization of a fuzzy cmeans clustering algorithm[C]Proceedings of The 18th IEEE Instrumentation and Measurement Technology Conference.Budapes: IEEE, 2001:1430-1433 [9]叶海军.模糊聚类分析技术及其应用研究[D].合肥:合肥工业大学电气与自动化工程学院,2006 Ye Haijun. The research on fuzzy clustering analysis technology and its application[D]. Hefei: School of Electric Engineering and Automation, HeFei University of Technology, 2006(in Chinese) [10]Choi D H, Oh S Y. A new mutation rule for evolutionary programming motivated from backproagation learning[J]. IEEE Transactions on Evolutionary Computation, 2000, 4(2): 188-190Choe H, Jordan J B. On the opt 期刊类型引用(5)
1. 李俊乐,黄珅,林文俏,谭健,李典,许月文,汪侃炎,陈聪. 焊缝质量离线检测技术的研究现状与发展前景. 金属加工(热加工). 2024(02): 11-22 . 
百度学术2. 康达,孔庆茹,马啸啸,林珊珊,张宏,马兆光,吴慧慧,陈尧. 超声全聚焦成像的裂纹类缺陷定量误差分析. 中国测试. 2024(02): 136-145 . 百度学术3. 章盟,樊程广,余孙全. 基于全矩阵椭圆成像法的加筋板结构损伤检测. 北京航空航天大学学报. 2024(06): 2033-2042 . 
本站查看4. 吕明轩,张斌,周超. 螺旋焊缝超声波相控阵检测系统参数调试. 焊管. 2023(01): 37-41 . 百度学术5. 王哲,张超,龙浩南,黎洋. 基于全聚焦相控阵超声的列车轮辋缺陷检测. 自动化应用. 2022(03): 7-9 . 百度学术其他类型引用(5)
-
百度学术
点击查看大图
计量
- 文章访问数: 2553
- HTML全文浏览量: 41
- PDF下载量: 1025
- 被引次数: 10
下载:
