Micro-macro decomposition of particle swarm optimization methods
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American Institute of Mathematical Sciences
Abstract
Solving non-convex minimization problems using multi-particle metaheuristic derivative-free optimization methods is still an active area of research. Popular methods are Particle Swarm Optimization (PSO) methods, that iteratively update a population of particles according to dynamics inspired by social interactions between individuals. We present a modification to include constrained minimization problems using exact penalization. Additionally, we utilize the hierarchical structure of PSO to introduce a micro-macro decomposition of the algorithm. The probability density of particles is written as a convex combination of microscopic and macroscopic contributions, and both parts are propagated separately. The decomposition is dynamically updated based on heuristic considerations. Numerical examples compare the results obtained using the algorithm in the microscopic scale, in the macroscopic scale, and using the new micro-macro decomposition.
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Keywords
Particle swarm optimization (PSO), Non-convex minimization, Derivative-free optimization, Metaheuristics, Constrained minimization, Micro-macro decomposition
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Citation
Herty, M. & Veneruso, S. 2026, 'Micro-macro decomposition of particle swarm optimization methods', Kinetic and Related Models, vol. 19, pp. 95-118, doi : 10.3934/krm.2025016.