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An improved hybrid metaheuristics and rule-based approach for flexible job-shop scheduling subject to machine breakdowns

Le Mai Thi, Truong Tran Mai Anh, Nguyen Van Hop

2022Engineering Optimization26 citationsDOI

Abstract

This article proposes an improved hybrid heuristic algorithm to handle the flexible job-shop scheduling problem subject to machine breakdowns. An initial prescheduling sequence is generated by a genetic algorithm. In the rescheduling process, the generated sequence with an uncertain repair time is modified by three typical adjustments of the route-change and the right-shift: (1) the route-change and the right-shift are combined to gain the best improvement; (2) one operation can be inserted after the last operation on any machine that has no impact on the related operations to improve the final solution; and (3) the lowest cost modification option is chosen to generate a new schedule to adapt to breakdown. The objective of these adaptive methods is to reduce the makespan and idle time of each machine when a random failure happens. Experimental results are evaluated to confirm the advantages of the developed algorithm.

Topics & Concepts

Job shop schedulingMetaheuristicComputer scienceMathematical optimizationSequence (biology)Scheduling (production processes)ScheduleGenetic algorithmFlow shop schedulingHeuristicJob shopAlgorithmArtificial intelligenceMathematicsGeneticsBiologyOperating systemScheduling and Optimization AlgorithmsAdvanced Manufacturing and Logistics OptimizationAssembly Line Balancing Optimization
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