An Extended Mixed-Integer Programming Formulation and Dynamic Cut Generation Approach for the Stochastic Lot-Sizing Problem
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Date
2018
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informs
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Abstract
We present an extended mixed-integer programming formulation of the stochastic lot-sizing problem for the static-dynamic uncertainty strategy. The proposed formulation is significantly more time efficient as compared to existing formulations in the literature and it can handle variants of the stochastic lot-sizing problem characterized by penalty costs and service level constraints, as well as backorders and lost sales. Also, besides being capable of working with a predefined piecewise linear approximation of the cost function-as is the case in earlier formulations-it has the functionality of finding an optimal cost solution with an arbitrary level of precision by means of a novel dynamic cut generation approach.
Description
Tunc, Huseyin/0000-0001-5508-3702; Kilic, Onur/0000-0003-2136-8157; Rossi, Roberto/0000-0001-7247-1010; Tarim, S. Armagan/0000-0001-5601-3968
Keywords
Stochastic Lot Sizing, Static-Dynamic Uncertainty, Extended Formulation, Dynamic Cut Generation
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Citation
Tunc, Huseyin; Kilic, Onur A.; Tarim, S. Armagan; et al. "An Extended Mixed-Integer Programming Formulation and Dynamic Cut Generation Approach for the Stochastic Lot-Sizing Problem", Informs Journal On Computing, Vol. 30, No. 3, pp. 492-506, (2018)
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Volume
30
Issue
3
Start Page
492
End Page
506