Fuzzy chance-constrained programming model for a multi-echelon reverse logistics network for household appliances

Fuzzy chance-constrained programming model for a multi-echelon reverse logistics network for household appliances

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Article ID: iaor20102619
Volume: 61
Issue: 4
Start Page Number: 551
End Page Number: 560
Publication Date: Apr 2010
Journal: Journal of the Operational Research Society
Authors: , , , ,
Keywords: fuzzy sets
Abstract:

Efficient planning and design of an appropriate reverse logistics network is crucial to the economical collection and disposal of scrapped household appliances and electrical products. Such systems are commonly modelled as mixed-integer programs, whose solutions will determine the location of individual facilities that optimize material flow. One of the major drawbacks of current models is that they do not adequately address the important issue of uncertainty in demand and supply. Another deficiency in current models is that they are restricted to a two-echelon system. This study addresses these deficiencies by embodying such uncertainties in the model using the technique of fuzzy-chance constrained programming, and by extending the model to a three-echelon system. A heuristic in the form of a hybrid genetic algorithm is then employed to generate low-cost solutions. The overall objective is to find economical solutions to the general problem of determining the volume of appliances to be moved between the three echelons of customer base to collection sites, collection sites to disposal centres and disposal centre to landfill centre/remanufacturing centre; and to the problems of positioning the disposal centres and the landfill centre/remanufacturing centres within the problem domain. A case example in China is presented and the quality and robustness of the solutions are explored through sensitivity analysis.

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