Improving the Decision-making of Reverse Logistics Network Design Part I: A MILP Model under Stochastic Environment
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https://hdl.handle.net/10037/12237Date
2018-02-11Type
Peer reviewedBokkapittel
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Bok
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Abstract
The study of the network design problems related to reverse supply chain and reverse logistics is of great interest for both academicians and practitioners due to its important role for a sustainable society. However, reverse logistics network design is a complex decision-making problem that involves several interactive factors and faces many uncertainties. Thus, in order to improve the reverse logistics network design, this paper proposes a new optimization model under stochastic environment and an improved solution method for network design of a multi-stage multi-product reveres supply chain. The study is presented in a series of two parts. Part I presents the relevant literature and formulates a stochastic mixed integer linear programming (MILP) for improving the decision-making of the reverse logistics network design. Part II improves the solution method for the proposed stochastic programming and illustrates the application through a numerical experimentation.
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Embargoed access. Author's post-print on any open access repository after 12 months after publication.
Link to publisher's version: https://doi.org/10.1007/978-981-10-5768-7_46