Litcius/Paper detail

An advanced hybrid meta-heuristic algorithm for solving small- and large-scale engineering design optimization problems

Pooja Verma, Raghav Prasad Parouha

2021Journal of Electrical Systems and Information Technology14 citationsDOIOpen Access PDF

Abstract

Abstract An advanced hybrid algorithm ( h aDEPSO) is proposed in this paper for small- and large-scale engineering design optimization problems. Suggested advanced, differential evolution (aDE) and particle swarm optimization (aPSO) integrated with proposed h aDEPSO. In aDE a novel, mutation, crossover and selection strategy is introduced, to avoid premature convergence. And aPSO consists of novel gradually varying parameters, to escape stagnation. So, convergence characteristic of aDE and aPSO provides different approximation to the solution space. Thus, h aDEPSO achieve better solutions due to integrating merits of aDE and aPSO. Also in h aDEPSO individual population is merged with other in a pre-defined manner, to balance between global and local search capability. The performance of proposed h aDEPSO and its component aDE and aPSO are validated on 23 unconstrained benchmark functions, then solved five small (structural engineering) and one large (economic load dispatch)-scale engineering design optimization problems. Outcome analyses confirm superiority of proposed algorithms over many state-of-the-art algorithms.

Topics & Concepts

Mathematical optimizationBenchmark (surveying)CrossoverConvergence (economics)Particle swarm optimizationPremature convergenceDifferential evolutionEngineering optimizationEvolutionary algorithmPopulationComputer scienceMetaheuristicLocal optimumHeuristicMulti-swarm optimizationEngineering design processOptimization problemEngineeringMathematicsMachine learningMechanical engineeringGeographyGeodesyEconomic growthSociologyDemographyEconomicsMetaheuristic Optimization Algorithms ResearchAdvanced Multi-Objective Optimization AlgorithmsElectric Power System Optimization