Author(s)

Masaaki Suzuki

Department of Industrial Administration, Tokyo University of Science, Chiba, Japan.

Updating the velocity in particle swarm optimization (PSO) consists of three terms: the inertia term, the cognitive term and the social term. The balance of these terms determines the balance of the global and local search abilities, and therefore the performance of PSO. In this work, an adaptive parallel PSO algorithm, which is based on the dynamic exchange of control parameters between adjacent swarms, has been developed. The proposed PSO algorithm enables us to adaptively optimize inertia factors, learning factors and swarm activity. By performing simulations of a search for the global minimum of a benchmark multimodal function, we have found that the proposed PSO successfully provides appropriate control parameter values, and thus good global optimization performance.

Swarm Intelligence, Particle Swarm Optimization, Global Optimization, Metaheuristics, Adaptive Parameter Tuning

Suzuki, M. (2016) Adaptive Parallel Particle Swarm Optimization Algorithm Based on Dynamic Exchange of Control Parameters. American Journal of Operations Research, 6, 401-413. doi: 10.4236/ajor.2016.65037.