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Particle Swarm Optimization Algorithm With Self-Organizing Mapping for Nash Equilibrium Strategy in Application of Multiobjective Optimization

Chenhui Zhao, Donghui Guo

2020IEEE Transactions on Neural Networks and Learning Systems41 citationsDOI

Abstract

In this article, the Nash equilibrium strategy is used to solve the multiobjective optimization problems (MOPs) with the aid of an integrated algorithm combining the particle swarm optimization (PSO) algorithm and the self-organizing mapping (SOM) neural network. The Nash equilibrium strategy addresses the MOPs by comparing decision variables one by one under different objectives. The randomness of the PSO algorithm gives full play to the advantages of parallel computing and improves the rate of comparison calculation. In order to avoid falling into local optimal solutions and increase the diversity of particles, a nonlinear recursive function is introduced to adjust the inertia weight, which is called the adaptive particle swarm optimization (APSO). In addition, the neighborhood relations of current particles are constructed by SOM, and the leading particles are selected from the neighborhood to guide the local and global search, so as to achieve convergence. Compared with several advanced algorithms based on the eight multiobjective standard test functions with different Pareto solution sets and Pareto front characteristics in examples, the proposed algorithm has a better performance.

Topics & Concepts

Mathematical optimizationParticle swarm optimizationComputer scienceConvergence (economics)Multi-swarm optimizationMulti-objective optimizationInertiaSwarm behaviourNash equilibriumAlgorithmMathematicsClassical mechanicsEconomicsPhysicsEconomic growthMetaheuristic Optimization Algorithms ResearchAdvanced Multi-Objective Optimization AlgorithmsMachine Learning and ELM