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Filters: Author is Aguirre, Hernan E.  [Clear All Filters]
2017-08-18
Zapotecas-Martinez, Saul, Moraglio, Alberto, Aguirre, Hernan E., Tanaka, Kiyoshi.  2016.  Geometric Particle Swarm Optimization for Multi-objective Optimization Using Decomposition. Proceedings of the Genetic and Evolutionary Computation Conference 2016. :69–76.

Multi-objective evolutionary algorithms (MOEAs) based on decomposition are aggregation-based algorithms which transform a multi-objective optimization problem (MOP) into several single-objective subproblems. Being effective, efficient, and easy to implement, Particle Swarm Optimization (PSO) has become one of the most popular single-objective optimizers for continuous problems, and recently it has been successfully extended to the multi-objective domain. However, no investigation on the application of PSO within a multi-objective decomposition framework exists in the context of combinatorial optimization. This is precisely the focus of the paper. More specifically, we study the incorporation of Geometric Particle Swarm Optimization (GPSO), a discrete generalization of PSO that has proven successful on a number of single-objective combinatorial problems, into a decomposition approach. We conduct experiments on many-objective 1/0 knapsack problems i.e. problems with more than three objectives functions, substantially harder than multi-objective problems with fewer objectives. The results indicate that the proposed multi-objective GPSO based on decomposition is able to outperform two version of the well-know MOEA based on decomposition (MOEA/D) and the most recent version of the non-dominated sorting genetic algorithm (NSGA-III), which are state-of-the-art multi-objec\textbackslash-tive evolutionary approaches based on decomposition.