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A hybrid multi-objective algorithm to solve a cellular manufacturing scheduling problem with human resource allocation

Publish place: Journal of Applied Research on Industrial Engineering، Vol: 9، Issue: 2
Publish Year: 1401
نوع سند: مقاله ژورنالی
زبان: English
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لینک ثابت به این Paper:
https://civilica.com/doc/1469214

شناسه ملی سند علمی:

JR_APRIE-9-2_009

تاریخ نمایه سازی: 30 خرداد 1401

Abstract:

A Cellular Manufacturing System (CMS) is a suitable system for the economic manufacture of part families. Scheduling the manufacturing cells plays an effective role in successful implementation of the manufacturing system. Due to the fact that in the CMS, bottleneck machine and human resources are two important factors, which so far have not been studied simultaneously in a mathematical model, there should be a model to consider them. Therefore, this research develops a bi-objective model for CMS in a three-dimensional space of machine-part and human resources. The main objective is to minimize the maximum completion time of all tasks in the system and reduce the number of intercellular translocation based on bottleneck machines’ motion and human resources. Due to the NP-hardness of the studied problem, applying the conventional solution methods is very time-consuming, and is impossible in large dimensions. Therefore, the use of metaheuristic methods will be useful. The accuracy of the proposed model is investigated using LINGO by solving a small example. Then, to solve the problem in larger dimensions, a hybrid Multi-Objective Tabu Search-Genetic Algorithm (MO-TS-GA) is designed and numerical results are reported for several examples.

Keywords:

Cellular Manufacturing , scheduling , Multi-Objective Optimization , Human Resource Allocation

Authors

Vahid Razmjoei

Department of Industrial Engineering, Mazandaran University of Science and Technology, Babol, Iran.

Iraj Mahdavi

Department of Industrial Engineering, Mazandaran University of Science and Technology, Babol, Iran.

Selma Gutmen

Faculty of Engineering Management, Poznan University of Technology, Poznan, Poland.

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  • Schaller, J. (۲۰۰۰). A comparison of heuristics for family and ...
  • Gupta, J. N., & Schaller, J. E. (۲۰۰۶). Minimizing flow ...
  • Hendizadeh, S. H., Faramarzi, H., Mansouri, S. A., Gupta, J. ...
  • Zandieh, M., Dorri, B., & Khamseh, A. R. (۲۰۰۹). Robust ...
  • Salmasi, N., Logendran, R., & Skandari, M. R. (۲۰۱۰). Total ...
  • Solimanpur, M., Vrat, P., & Shankar, R. (۲۰۰۴). A heuristic ...
  • Zagardi, S. H., & Bohloli, E. (۲۰۰۹). Group scheduling considering ...
  • Li, D., Wang, Y., Xiao, G., & Tang, J. (۲۰۱۳). ...
  • Tavakkoli-Moghaddam, R., Javadian, N., Khorrami, A., & Gholipour-Kanani, Y. (۲۰۱۰). ...
  • Solimanpur, M., & Elmi, A. (۲۰۱۳). A tabu search approach ...
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  • Karthikeyan, S., Saravanan, M., & Rajkumar, M. (۲۰۱۶). Optimization of ...
  • Azadeh, A., Ravanbakhsh, M., Rezaei-Malek, M., Sheikhalishahi, M., & Taheri-Moghaddam, ...
  • Méndez-Vázquez, Y. M., & Nembhard, D. A. (۲۰۱۹). Worker-cell assignment: ...
  • Chu, X., Gao, D., Cheng, S., Wu, L., Chen, J., ...
  • Kesavan, V., Kamalakannan, R., Sudhakarapandian, R., & Sivakumar, P. (۲۰۲۰). ...
  • Goli, A., Tirkolaee, E. B., & Aydın, N. S. (۲۰۲۱). ...
  • Elmi, A., Solimanpur, M., Topaloglu, S., & Elmi, A. (۲۰۱۱). ...
  • Heydari, M., & Aazami, A. (۲۰۱۸). Minimizing the maximum tardiness ...
  • Dehnavi-Arani, S., Saidi-Mehrabad, M., & Ghezavati, V. (۲۰۱۹). An integrated ...
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  • Allahverdi, A., Gupta, J. N., & Aldowaisan, T. (۱۹۹۹). A ...
  • Nembhard, D. A. (۲۰۰۱). Heuristic approach for assigning workers to ...
  • Goli, A., Zare, H. K., Tavakkoli‐Moghaddam, R., & Sadegheih, A. ...
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  • Tirkolaee, E. B., Hadian, S., & Golpira, H. (۲۰۱۹). A ...
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