工程设计问题的混合灰狼优化器

IF 0.9 4区 数学 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Journal of Combinatorial Optimization Pub Date : 2024-07-03 DOI:10.1007/s10878-024-01189-9
Shuilin Chen, Jianguo Zheng
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引用次数: 0

摘要

灰狼优化器(GWO)是最流行的元启发式算法之一,与其他比较方法相比具有很强的竞争力。然而,基本的 GWO 还需要一些改进,如过早收敛和开发与探索之间的不平衡。针对这些不足,本文开发了一种混合灰狼优化器(HGWO),它结合了 Halton 序列、基于维度学习的十字交叉策略和 Cauchy 突变策略。首先,利用 Halton 序列扩大搜索范围,提高解的多样性。然后,使用基于维度学习的方法进行位置更新,以平衡开发和探索。此外,还引入了十字交叉策略,以提高收敛精度。最后,采用 Cauchy 突变策略避免陷入局部最优。通过在不同维度的 15 个基准函数上与先进算法进行比较,证明了 HGWO 的有效性。结果表明,HGWO 优于其他先进算法。此外,HGWO 还被用于解决八个实际工程问题,结果表明 HGWO 优于不同的高级算法。
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A hybrid grey wolf optimizer for engineering design problems

Grey wolf optimizer (GWO) is one of the most popular metaheuristics, and it has been presented as highly competitive with other comparison methods. However, the basic GWO needs some improvement, such as premature convergence and imbalance between exploitation and exploration. To address these weaknesses, this paper develops a hybrid grey wolf optimizer (HGWO), which combines the Halton sequence, dimension learning-based, crisscross strategy, and Cauchy mutation strategy. Firstly, the Halton sequence is used to enlarge the search scope and improve the diversity of the solutions. Then, the dimension learning-based is used for position update to balance exploitation and exploration. Furthermore, the crisscross strategy is introduced to enhance convergence precision. Finally, the Cauchy mutation strategy is adapted to avoid falling into the local optimum. The effectiveness of HGWO is demonstrated by comparing it with advanced algorithms on the 15 benchmark functions in different dimensions. The results illustrate that HGWO outperforms other advanced algorithms. Moreover, HGWO is used to solve eight real-world engineering problems, and the results demonstrate that HGWO is superior to different advanced algorithms.

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来源期刊
Journal of Combinatorial Optimization
Journal of Combinatorial Optimization 数学-计算机:跨学科应用
CiteScore
2.00
自引率
10.00%
发文量
83
审稿时长
6 months
期刊介绍: The objective of Journal of Combinatorial Optimization is to advance and promote the theory and applications of combinatorial optimization, which is an area of research at the intersection of applied mathematics, computer science, and operations research and which overlaps with many other areas such as computation complexity, computational biology, VLSI design, communication networks, and management science. It includes complexity analysis and algorithm design for combinatorial optimization problems, numerical experiments and problem discovery with applications in science and engineering. The Journal of Combinatorial Optimization publishes refereed papers dealing with all theoretical, computational and applied aspects of combinatorial optimization. It also publishes reviews of appropriate books and special issues of journals.
期刊最新文献
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