The value of multistage stochastic programming in capacity planning under uncertainty

The value of multistage stochastic programming in capacity planning under uncertainty

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Article ID: iaor200970267
Country: United States
Volume: 57
Issue: 4
Start Page Number: 893
End Page Number: 904
Publication Date: Jul 2009
Journal: Operations Research
Authors: ,
Keywords: programming: probabilistic
Abstract:

This paper addresses a general class of capacity planning problems under uncertainty, which arises, for example, in semiconductor tool purchase planning. Using a scenario tree to model the evolution of the uncertainties, we develop a multistage stochastic integer programming formulation for the problem. In contrast to earlier two-stage approaches, the multistage model allows for revision of the capacity expansion plan as more information regarding the uncertainties is revealed. We provide analytical bounds for the value of multistage stochastic programming (VMS) afforded over the two-stage approach. By exploiting a special substructure inherent in the problem, we develop an efficient approximation scheme for the difficult multistage stochastic integer program and prove that the proposed scheme is asymptotically optimal. Computational experiments with realistic-scale problem instances suggest that the VMS for this class of problems is quite high; moreover, the quality and performance of the approximation scheme is very satisfactory. Fortunately, this is more so for instances for which the VMS is high.

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