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Hierarchical Swarm Model: A New Approach to Optimization

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  • Hanning Chen
  • Yunlong Zhu
  • Kunyuan Hu
  • Xiaoxian He

Abstract

This paper presents a novel optimization model called hierarchical swarm optimization (HSO), which simulates the natural hierarchical complex system from where more complex intelligence can emerge for complex problems solving. This proposed model is intended to suggest ways that the performance of HSO-based algorithms on complex optimization problems can be significantly improved. This performance improvement is obtained by constructing the HSO hierarchies, which means that an agent in a higher level swarm can be composed of swarms of other agents from lower level and different swarms of different levels evolve on different spatiotemporal scale. A novel optimization algorithm (named P S 2 O ), based on the HSO model, is instantiated and tested to illustrate the ideas of HSO model clearly. Experiments were conducted on a set of 17 benchmark optimization problems including both continuous and discrete cases. The results demonstrate remarkable performance of the P S 2 O algorithm on all chosen benchmark functions when compared to several successful swarm intelligence and evolutionary algorithms.

Suggested Citation

  • Hanning Chen & Yunlong Zhu & Kunyuan Hu & Xiaoxian He, 2010. "Hierarchical Swarm Model: A New Approach to Optimization," Discrete Dynamics in Nature and Society, Hindawi, vol. 2010, pages 1-30, May.
    • Handle: RePEc:hin:jnddns:379649
    DOI: 10.1155/2010/379649
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    Cited by:

    1. Tran, Dai-Duong & Vafaeipour, Majid & El Baghdadi, Mohamed & Barrero, Ricardo & Van Mierlo, Joeri & Hegazy, Omar, 2020. "Thorough state-of-the-art analysis of electric and hybrid vehicle powertrains: Topologies and integrated energy management strategies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 119(C).
    2. Jaromír Kukal & Matej Mojzeš, 2018. "Quantile and mean value measures of search process complexity," Journal of Combinatorial Optimization, Springer, vol. 35(4), pages 1261-1285, May.

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