Global optimization of an optical chaotic system by Chaotic Multi Swarm Particle Swarm Optimization

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The control and estimation of unknown parameters of chaotic systems are a daunting task till date from the perspective of nonlinear science. Inspired from ecological co-habitation, we propose a variant of Particle Swarm Optimization (PSO), known as Chaotic Multi Swarm Particle Swarm Optimization (CMS-PSO), by modifying the generic PSO with the help of the chaotic sequence for multi-dimension unknown parameter estimation and optimization by forming multiple cooperating swarms. This achieves load balancing by delegating the global optimizing task to concurrently operating swarms. We apply it successfully in estimating the unknown parameters of an autonomous chaotic laser system derived from Maxwell–Bloch equations. Numerical results and comparison demonstrate that for the given system parameters, CMS-PSO can identify the optimized parameters effectively evolving at each iteration to attain the pareto optimal solution with small population size and enhanced convergence speedup.

论文关键词:Global optimization,Multi dimension,Computational intelligence,Particle swarm optimization,Laser,Chaotic sequences,Parameter estimation

论文评审过程:Available online 28 July 2011.

论文官网地址:https://doi.org/10.1016/j.eswa.2011.07.089