Hierarchical Water Wave Optimization

2022 IEEE International Conference on Networking, Sensing and Control (ICNSC) Pub Date : 2022-12-15 DOI:10.1109/ICNSC55942.2022.10004174

Shibo Dong, Haichuan Yang, Haotian Li, Baohang Zhang, Sichen Tao, Shangce Gao

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引用次数: 1

Abstract

Water wave optimization algorithm (WWO) draws inspiration from the natural summary of the shallow water wave theory. It benefits from a modest population size and straightforward parameter design. However, WWO still has some performance problems that need to be solved, e.g., the convergence speed is too slow, and it cannot find the optimal point efficiently and accurately. This paper proposes a strategy of multi-level population structure for it, namely DWWO. The multi-level population structure strategy further enhances the balance between exploitation performance and exploration performance of the WWO algorithm. It makes the algorithm performance more stable, which leads to the DWWO algorithm can be used in more practical problems. DWWO algorithm is compared with the classical WWO algorithm, cuckoo search algorithm, sparrow search algorithm, and sine cosine algorithm on the basis of IEEE CEC2017 problem set. Comprehensive experimental results show that DWWO algorithm has better optimization ability and relatively fast convergence speed in comparison with other algorithms.

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分层水波优化

水波优化算法(WWO)的灵感来源于浅水波浪理论的自然总结。它得益于适度的人口规模和简单的参数设计。但是，WWO仍然存在一些性能问题需要解决，例如收敛速度太慢，不能高效准确地找到最优点。本文提出了一种多层次人口结构策略，即DWWO。多层次种群结构策略进一步增强了WWO算法的开发性能和探索性能之间的平衡。它使算法性能更加稳定，从而使DWWO算法可以应用于更多的实际问题。在IEEE CEC2017问题集的基础上，将DWWO算法与经典WWO算法、布谷鸟搜索算法、麻雀搜索算法、正弦余弦算法进行比较。综合实验结果表明，与其他算法相比，DWWO算法具有更好的优化能力和较快的收敛速度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE International Conference on Networking, Sensing and Control (ICNSC)

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