期刊
APPLIED SCIENCES-BASEL
卷 12, 期 23, 页码 -出版社
MDPI
DOI: 10.3390/app122312179
关键词
moth-flame optimization; hybrid mutation; chemotaxis motion; engineering-constraint design
类别
资金
- Science and Technology Development Program of Jilin Province
- [20200301047RQ]
The enhanced moth-flame optimization algorithm HMCMMFO proposed in this paper combines hybrid mutation and chemotaxis motion mechanisms to improve optimization accuracy and diversity, addressing the shortcomings of the original moth-flame optimization algorithm.
Moth-flame optimization is a typical meta-heuristic algorithm, but it has the shortcomings of low-optimization accuracy and a high risk of falling into local optima. Therefore, this paper proposes an enhanced moth-flame optimization algorithm named HMCMMFO, which combines the mechanisms of hybrid mutation and chemotaxis motion, where the hybrid-mutation mechanism can enhance population diversity and reduce the risk of stagnation. In contrast, chemotaxis-motion strategy can better utilize the local-search space to explore more potential solutions further; thus, it improves the optimization accuracy of the algorithm. In this paper, the effectiveness of the above strategies is verified from various perspectives based on IEEE CEC2017 functions, such as analyzing the balance and diversity of the improved algorithm, and testing the optimization differences between advanced algorithms. The experimental results show that the improved moth-flame optimization algorithm can jump out of the local-optimal space and improve optimization accuracy. Moreover, the algorithm achieves good results in solving five engineering-design problems and proves its ability to deal with constrained problems effectively.
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