A novel hybrid genetic algorithm to solve the make-to-order sequence-dependent flow-shop scheduling problem

Mirabi, Mohammad; T. Fatemi Ghomi, S. M.; . Jolai, F

رقم المقالة : 676508 زيارة : 98 الصفحة: 0 - 0

نوع المخطوط: ابحاث

A novel hybrid genetic algorithm to solve the make-to-order sequence-dependent flow-shop scheduling problem

الموضوعات :

Mohammad Mirabi ¹ , S. M. T. Fatemi Ghomi ² , F . Jolai ³

1 - Group of Industrial Engineering, Ayatollah Haeri University of Meybod, P.O. Box 89619-55133, Meybod, Iran
2 - Department of Industrial Engineering, Amirkabir University of Technology, P.O. Box 15916-34311, Tehran, Iran
3 - Department of Industrial Engineering, College of Engineering, University of Tehran, P.O. Box 14395-515, Tehran, Iran

تاريخ الإرسال : 15 الجمعة , صفر, 1442 تاريخ التأكيد : 15 الجمعة , صفر, 1442 تاريخ الإصدار : 03 الأحد , شعبان, 1435

الکلمات المفتاحية: Hybrid genetic algorithm Scheduling Permutation flow, shop Sequence dependent,

ملخص المقالة :

Flow-shop scheduling problem (FSP) deals with the scheduling of a set of n jobs that visit a set of m machines in the same order. As the FSP is NP-hard, there is no efficient algorithm to reach the optimal solution of the problem. To minimize the holding, delay and setup costs of large permutation flow-shop scheduling problems with sequence-dependent setup times on each machine, this paper develops a novel hybrid genetic algorithm (HGA) with three genetic operators. Proposed HGA applies a modified approach to generate a pool of initial solutions, and also uses an improved heuristic called the iterated swap procedure to improve the initial solutions. We consider the make-to-order production approach that some sequences between jobs are assumed as tabu based on maximum allowable setup cost. In addition, the results are compared to some recently developed heuristics and computational experimental results show that the proposed HGA performs very competitively with respect to accuracy and efficiency of solution.

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A novel hybrid genetic algorithm to solve the make-to-order sequence-dependent flow-shop scheduling problem

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