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A multiobjective fuzzy mathematical model for a supply chain problem with the forward and reverse flows

A multiobjective fuzzy mathematical model for a supply chain problem with the forward and reverse... Reverse logistics has been one of the complex and popular topics drawing attentions of the researchers and practitioners. Recovery of products has many advantages to companies in reducing costs and protecting the environment. In this study, one of the recovery options, namely reuse, is analysed. For this pursuit, a mathematical model is developed to plan production and distribution of the reusable products as well as the new products by considering the forward and reverse flows of the products. The model is a multi-echelon supply chain model composed of multiple customers, multiple distributors, multiple transshipment points, and a factory. Due to vagueness, ambiguity and lack of information in the reverse logistics, the problem is constructed and solved under the fuzzy environment. The model is implemented on a hypothetical supply chain network based on an industrial case, and the results of the model are compared with the results of the other methods. Keywords: reverse logistics; supply chain; reuse; the forward and reverse flows; fuzzy. Reference to this paper should be made as follows: Otay, . And Çeb F. (2016) ` for a supply chain problem with the forward and reverse flows', Int. J. Information and Decision Sciences, Vol. 8, No. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png International Journal of Information and Decision Sciences Inderscience Publishers

A multiobjective fuzzy mathematical model for a supply chain problem with the forward and reverse flows

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Publisher
Inderscience Publishers
Copyright
Copyright © 2016 Inderscience Enterprises Ltd.
ISSN
1756-7017
eISSN
1756-7025
DOI
10.1504/IJIDS.2016.080460
Publisher site
See Article on Publisher Site

Abstract

Reverse logistics has been one of the complex and popular topics drawing attentions of the researchers and practitioners. Recovery of products has many advantages to companies in reducing costs and protecting the environment. In this study, one of the recovery options, namely reuse, is analysed. For this pursuit, a mathematical model is developed to plan production and distribution of the reusable products as well as the new products by considering the forward and reverse flows of the products. The model is a multi-echelon supply chain model composed of multiple customers, multiple distributors, multiple transshipment points, and a factory. Due to vagueness, ambiguity and lack of information in the reverse logistics, the problem is constructed and solved under the fuzzy environment. The model is implemented on a hypothetical supply chain network based on an industrial case, and the results of the model are compared with the results of the other methods. Keywords: reverse logistics; supply chain; reuse; the forward and reverse flows; fuzzy. Reference to this paper should be made as follows: Otay, . And Çeb F. (2016) ` for a supply chain problem with the forward and reverse flows', Int. J. Information and Decision Sciences, Vol. 8, No.

Journal

International Journal of Information and Decision SciencesInderscience Publishers

Published: Jan 1, 2016

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