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- Title
Approximation Algorithms for Capacitated Stochastic Inventory Control Models.
- Authors
Levi, Retsef; Roundy, Robin O.; Shmoys, David B.; Van Anh Truong
- Abstract
We develop the first algorithmic approach to compute provably good ordering policies for a multiperiod, capacitated, stochastic inventory system facing stochastic nonstationary and correlated demands that evolve over time. Our approach is computationally efficient and guaranteed to produce a policy with total expected cost no more than twice that of an optimal policy. As part of our computational approach, we propose a novel scheme to account for backlogging costs in a capacitated, multiperiod environment. Our cost-accounting scheme, called the forced marginal backlogging cost-accounting scheme, is significantly different from the period-by-period accounting approach to backlogging costs used in dynamic programming; it captures the long-term impact of a decision on system performance in the presence of capacity constraints. In the likely event that the per-unit order costs are large compared to the holding and backlogging costs, a transformation of cost parameters yields a significantly improved guarantee. We also introduce new semi myopic policies based on our new cost-accounting scheme to derive bounds on the optimal base-stock levels. We show that these bounds can be used to effectively improve any policy. Finally, empirical evidence is presented that indicates that the typical performance of this approach is significantly stronger than these worst-case guarantees.
- Subjects
INVENTORY control; APPROXIMATION theory; MATHEMATICAL optimization; STOCHASTIC models; ALGORITHMS; OPERATIONS research
- Publication
Operations Research, 2008, Vol 56, Issue 5, p1184
- ISSN
0030-364X
- Publication type
Article
- DOI
10.1287/opre.1080.0580