4.7 Article

Real-time integrated production-scheduling and maintenance-planning in a flexible job shop with machine deterioration and condition-based maintenance

期刊

JOURNAL OF MANUFACTURING SYSTEMS
卷 61, 期 -, 页码 423-449

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ELSEVIER SCI LTD
DOI: 10.1016/j.jmsy.2021.09.018

关键词

Real-time optimization; Production scheduling; Maintenance planning; Condition-based maintenance; Smart manufacturing systems; Industry 4; 0

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This paper discusses the real-time joint optimization of maintenance planning and production scheduling in smart manufacturing systems. By using a modified hybrid genetic algorithm and other methods, it addresses common issues that occur in practice and shows the superiority of the proposed system in solving the problem under study. The results emphasize the importance of baseline plan quality, hybrid rescheduling policies, and reaction times for cost savings.
The introduction of modern technologies in manufacturing is contributing to the emergence of smart (and datadriven) manufacturing systems, known as Industry 4.0. The benefits of adopting such technologies can be fully utilized by presenting optimization models in every step of the decision-making process. This includes the optimization of maintenance plans and production schedules, which are two essential aspects of any manufacturing process. In this paper, we consider the real-time joint optimization of maintenance planning and production scheduling in smart manufacturing systems. We have considered a flexible job shop production layout and addressed several issues that usually take place in practice. The addressed issues are: new job arrivals, unexpected due date changes, machine degradation, random breakdowns, minimal repairs, and condition-based maintenance (CBM). We have proposed a real-time optimization-based system that utilizes a modified hybrid genetic algorithm, an integrated proactive-reactive optimization model, and hybrid rescheduling policies. A set of modified benchmark problems is used to test the proposed system by comparing its performance to several other optimization algorithms and methods used in practice. The results show the superiority of the proposed system for solving the problem under study. The results also emphasize the importance of the quality of the generated baseline plans (i.e., initial integrated plans), the use of hybrid rescheduling policies, and the importance of rescheduling times (i.e., reaction times) for cost savings.

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