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A memetic discrete differential evolution algorithm for the distributed permutation flow shop scheduling problem

Fuqing Zhao, Xiaotong Hu, Ling Wang, Zekai Li

2021Complex & Intelligent Systems40 citationsDOIOpen Access PDF

Abstract

Abstract The distributed manufacturing has become a prevail production mode under the economic globalization. In this article, a memetic discrete differential evolution (MDDE) algorithm is proposed to address the distributed permutation flow shop scheduling problem (DPFSP) with the minimization of the makespan. An enhanced NEH (Nawaz–Enscore–Ham) method is presented to produce potential candidate solutions and Taillard’s acceleration method is adopted to ameliorate the operational efficiency of the MDDE. A new discrete mutation strategy is introduced to promote the search efficiency of the MDDE. Four neighborhood structures, which are based on job sequence and factory assignment adjustment mechanisms, are introduced to prevent the candidates from falling the local optimum during the search process. A neighborhood search mechanism is selected adaptively through a knowledge-based strategy which focuses on the adaptive evaluation for the neighborhood selection. The optimal combinations of parameters in the MDDE algorithm are testified by the design of experiment. The computational results and comparisons demonstrated the effectiveness of the MDDE algorithm for solving the DPFSP.

Topics & Concepts

Flow shop schedulingJob shop schedulingMathematical optimizationMemetic algorithmDifferential evolutionComputational intelligenceComputer scienceDistributed manufacturingLocal search (optimization)Permutation (music)MinificationAlgorithmMathematicsArtificial intelligenceEngineeringOperating systemSchedulePhysicsMechanical engineeringAcousticsScheduling and Optimization AlgorithmsAssembly Line Balancing OptimizationAdvanced Manufacturing and Logistics Optimization