An improved LSHADE-RSP algorithm with the Cauchy perturbation: iLSHADE-RSP

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摘要

A new method for improving the optimization performance of a state-of-the-art differential evolution (DE) variant is proposed in this paper. The technique can increase the exploration by adopting the long-tailed property of the Cauchy distribution, which helps the algorithm generate a trial vector with great diversity. Compared to the previous approaches, the proposed approach perturbs a target vector instead of a mutant vector based on a jumping rate. We applied the proposed approach to LSHADE-RSP ranked second place in the CEC 2018 competition on single objective real-valued optimization. A set of 30 different and difficult optimization problems is used to evaluate the optimization performance of the improved LSHADE-RSP. Our experimental results verify that the improved LSHADE-RSP significantly outperformed not only its predecessor LSHADE-RSP but also several cutting-edge DE variants in terms of convergence speed and solution accuracy.

论文关键词:Artificial intelligence,Evolutionary algorithm,Differential evolution,Mathematical optimization

论文评审过程:Received 2 May 2020, Revised 7 October 2020, Accepted 24 November 2020, Available online 12 January 2021, Version of Record 15 January 2021.

论文官网地址:https://doi.org/10.1016/j.knosys.2020.106628