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ISSN: 2168-9873

Journal of Applied Mechanical Engineering
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Research Article

Designing a Bi-objective Integrating Mathematical Model for Dynamic Sustainable Cellular Manufacturing Systems Considering Production Planning

Ghodsi R1*, Mostafayi S2, Mansouri Z2 and Bakhtiari M2
1Engineering Department, Central Connecticut State University, USA
2Department of Industrial Engineering, Kurdistan University, Sanandaj, Iran
Corresponding Author : Ghodsi R
Engineering Department, Central Connecticut State University, USA
Tel: +1 860-832-3200
E-mail: [email protected]
Received October 27, 2015; Accepted October 29, 2015; Published November 10, 2015
Citation: Ghodsi R, Mostafayi S, Mansouri Z, Bakhtiari M (2015) Designing a Bi-objective Integrating Mathematical Model for Dynamic Sustainable Cellular Manufacturing Systems Considering Production Planning. J Appl Mech Eng 4:184. doi:10.4172/2168-9873.1000184
Copyright: © 2015 Ghodsi R, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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Abstract

Increasing the profits of producers solely or alternatively minimizing production costs for manufacturers were considered in classical models for planning and designing cellular manufacturing systems. Provided that, with the expansion of manufacturing systems and the increasing demand for products, devastating effects of increasing levels of greenhouse gases on the environment has become more evident and has gained the attention of governments. Besides, the satisfaction of workers’ working conditions, sound pollution and other issues, are vital to establish a sustainable manufacturing system. In this paper, a multi-objective mathematical model (linear/nonlinear) is presented to create stable cellular manufacturing system regarding to mentioned matters in order to minimize the costs of system establishment in addition to optimizing the environmental impacts of the manufacturing system. This model is introduced as a stable cellular manufacturing system (SCMS) and in fact is seeking for a solution to create a manufacturing system in which all factors such as producers, the environment, workers and other are beneficiaries. Also, Epsilon Constraint/LP metric/Pareto Front multi-objective approach given the weights of objectives is used to solve the model.

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