Dynamic programming for solving disassembly-to-order system under stochastic yields, limited supply, and quantity discount

Title:
Dynamic programming for solving disassembly-to-order system under stochastic yields, limited supply, and quantity discount
Creator:
Massoud, Amre Z. (Author)
Gupta, Surendra M. (Author)
Language:
English
Publisher:
Northeast Decision Sciences Institute
Copyright date:
2009
Type of resource:
Text
Genre:
Articles
Format:
electronic
Digital origin:
born digital
Abstract/Description:
In this paper, we consider the disassembly-to-order (DTO) problem where a variety of returned end-of-life (EOL) products are disassembled in order to satisfy the demand for specified numbers of components. However, a lot of uncertainties exist in the disassembly process that further complicates the process. A DTO model has been developed that takes into consideration the different system uncertainties and variability. The DTO model was solved in multiple periods using dynamic programming (DP). The main objective was to determine optimal number of takeback EOL products in every period from each supplier to fulfill the demand of components while maximizing total profit of the system. A numerical example is considered to illustrate the model approach.
Comments:
Originally published in the Proceedings of the 2009 Northeast Decision Sciences Institute Conference, Uncasville, CT, April 1-3, 2009 (CD-ROM)
Subjects and keywords:
End-of-Life Processing
Disassembly-to-Order
Dynamic Programming
Industrial Engineering
Mechanical Engineering

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