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Limit-Cycle-Based Mutant Multiobjective Pigeon-Inspired Optimization

Haibin Duan, Mengzhen Huo, Yuhui Shi

2020IEEE Transactions on Evolutionary Computation34 citationsDOI

Abstract

This article presents a limit-cycle-based mutant multiobjective pigeon-inspired optimization (PIO). In this algorithm, the limit-cycle-based mechanism is devised to consider the factors that affect the flight of pigeons to simplify the multiobjective PIO algorithm. The mutant mechanism is incorporated to strengthen the exploration capability in the evolutionary process. Additionally, the application of the dual repository makes the nondominated solutions stored and selected to guide the flight of pigeons. Attributed to the limit-cycle-based mutant mechanisms, this algorithm not only obtains the faster convergence speed and higher accuracy but also improves its population diversity. To confirm the universal application of this algorithm, theoretical analysis of the convergence is discussed in this article. Finally, comparative experiments of our proposed algorithm and other five multiobjective methods are conducted to verify the accuracy, efficiency, and convergence stability of the proposed algorithm.

Topics & Concepts

Convergence (economics)Limit (mathematics)Mathematical optimizationLimit cycleProcess (computing)Computer scienceEvolutionary algorithmPopulationStability (learning theory)Multi-objective optimizationRange (aeronautics)Dual (grammatical number)MathematicsEngineeringMachine learningEconomicsSociologyDemographyMathematical analysisEconomic growthOperating systemAerospace engineeringLiteratureArtMetaheuristic Optimization Algorithms ResearchAdvanced Multi-Objective Optimization AlgorithmsEvolutionary Algorithms and Applications
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