Multi-fidelity simulation optimization for production releasing in re-entrant mixed-flow shops

Zhang, Zhengmin and Guan, Zailin and Yue, Lei (2023) Multi-fidelity simulation optimization for production releasing in re-entrant mixed-flow shops. International Journal of Industrial Engineering Computations, 14 (1). pp. 99-114. ISSN 19232926

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Abstract

This research focuses on production releasing and routing allocation problems in re-entrant mixed-flow shops. Since re-entrant mixed flow shops are complex and dynamic, many studies evaluate release plans by developing discrete event simulation models and selecting the optimal solution according to the estimation results. However, a high-accurate discrete event simulation model requires a lot of computation time. In this research, we develop an effective multi-fidelity optimization method to address product release planning problems for re-entrant mixed-flow shops. The proposed method combines the advantages of rapid evaluation of analytical models and accurate evaluation of simulation models. It conducts iterative optimization using a low-fidelity mathematical estimation model to find good solutions and searches for the optimal solution via a high-fidelity simulation estimation model. Computational results of large-scale production releasing and routing allocation problems illustrate that the proposed approach is good at addressing large-scale problems in re-entrant mixed-flow shops.

Item Type: Article
Subjects: Article Paper Librarian > Engineering
Depositing User: Unnamed user with email support@article.paperlibrarian.com
Date Deposited: 15 Apr 2024 13:03
Last Modified: 15 Apr 2024 13:03
URI: http://editor.journal7sub.com/id/eprint/2756

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