Reconfiguration of Machine Layout and Part Routing for Dynamic Cellular Manufacturing System Using Goal Programming

カテゴリ: 研究会(論文単位)

論文No: IS11022

グループ名: 【C】電子・情報・システム部門 情報システム研究会

発行日: 2011/04/15

タイトル(英語): Reconfiguration of Machine Layout and Part Routing for Dynamic Cellular Manufacturing System Using Goal Programming

著者名: Li Wan-Ling (Waseda University),Murata Tomohiro(Waseda University)

著者名(英語): Li Wan-Ling(Waseda University),Murata Tomohiro(Waseda University)

キーワード: Ｄｙｎａｍｉｃ　Ｃｅｌｌｕｌａｒ　Ｍａｎｕｆａｃｔｕｒｉｎｇ　Ｓｙｓｔｅｍ|Ｍａｃｈｉｎｅ　Ｌａｙｏｕｔ|Ｍａｎｕｆａｃｔｕｒｉｎｇ　Ｍａｉｎｔｅｎａｎｃｅ　Ｓｕｐｐｏｒｔ|Dynamic Cellular Manufacturing System|Machine Layout|Manufacturing Maintenance Support

要約(日本語): A mathematical based approach is presented for workstation moveableness to maintain the productivity of dynamic cellular manufacturing system (DCMS) under turbulent environment. The model developed is a multi-objective Goal Programming problem that simultaneously considers performance in inter- and intra-cellular part movements and machine reallocation. The merit of the approach presented in this paper is the utilization of goals to represent minimize the total investment cost, total processing time, and to ensure the goals can effectively guide the underlying model to reach a solution that best satisfies operators' preferences over a certain horizon when DCMS occurs unexpected events. This approach significantly improves maintenance-support capabilities, and it is critical for the development of maintenance-support systems. A hypothetical numerical example is provided in this paper to verify the strength of the presented approach.The main constraints are maximal cell size and minimal number of machines movement.

要約(英語): A mathematical based approach is presented for workstation moveableness to maintain the productivity of dynamic cellular manufacturing system (DCMS) under turbulent environment. The model developed is a multi-objective Goal Programming problem that simultaneously considers performance in inter- and intra-cellular part movements and machine reallocation. The merit of the approach presented in this paper is the utilization of goals to represent minimize the total investment cost, total processing time, and to ensure the goals can effectively guide the underlying model to reach a solution that best satisfies operators' preferences over a certain horizon when DCMS occurs unexpected events. This approach significantly improves maintenance-support capabilities, and it is critical for the development of maintenance-support systems. A hypothetical numerical example is provided in this paper to verify the strength of the presented approach.The main constraints are maximal cell size and minimal number of machines movement.

原稿種別: 日本語

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