Biomimetics (Aug 2024)

Research on Move-to-Escape Enhanced Dung Beetle Optimization and Its Applications

  • Shuwan Feng,
  • Jihong Wang,
  • Ziming Li,
  • Sai Wang,
  • Ziyi Cheng,
  • Hui Yu,
  • Jiasheng Zhong

DOI
https://doi.org/10.3390/biomimetics9090517
Journal volume & issue
Vol. 9, no. 9
p. 517

Abstract

Read online

The dung beetle optimization (DBO) algorithm is acknowledged for its robust optimization capabilities and rapid convergence as an efficient swarm intelligence optimization technique. Nevertheless, DBO, similar to other swarm intelligence algorithms, often gets trapped in local optima during the later stages of optimization. To mitigate this challenge, we propose the Move-to-Escape dung beetle optimization (MEDBO) algorithm in this paper. MEDBO utilizes a good point set strategy for initializing the swarm’s initial population, ensuring a more uniform distribution and diminishing the risk of local optima entrapment. Moreover, it incorporates convergence factors and dynamically balances the number of offspring and foraging individuals, prioritizing global exploration initially and local exploration subsequently. This dynamic adjustment not only enhances the search speed but also prevents local optima stagnation. The algorithm’s performance was assessed using the CEC2017 benchmark suite, which confirmed MEDBO’s significant improvements. Additionally, we applied MEDBO to three engineering problems: pressure vessel design, three-bar truss design, and spring design. MEDBO exhibited an excellent performance in these applications, demonstrating its practicality and efficacy in real-world problem-solving contexts.

Keywords