Article ID: | iaor201524789 |
Volume: | 23 |
Issue: | 9 |
Start Page Number: | 1646 |
End Page Number: | 1663 |
Publication Date: | Sep 2014 |
Journal: | Production and Operations Management |
Authors: | Chen Wei, Dawande Milind, Janakiraman Ganesh |
Keywords: | stochastic processes, management, simulation, demand, programming: linear, programming: dynamic |
We study several finite‐horizon, discrete‐time, dynamic, stochastic inventory control models with integer demands: the newsvendor model, its multi‐period extension, and a single‐product, multi‐echelon assembly model. Equivalent linear programs are formulated for the corresponding stochastic dynamic programs, and integrality results are derived based on the total unimodularity of the constraint matrices. Specifically, for all these models, starting with integer inventory levels, we show that there exist optimal policies that are integral. For the most general single‐product, multi‐echelon assembly system model, integrality results are also derived for a practical alternative to stochastic dynamic programming, namely, rolling‐horizon optimization by a similar argument. We also present a different approach to prove integrality results for stochastic inventory models. This new approach is based on a generalization we propose for the one‐dimensional notion of piecewise linearity with integer breakpoints to higher dimensions. The usefulness of this new approach is illustrated by establishing the integrality of both the dynamic programming and rolling‐horizon optimization models of a two‐product capacitated stochastic inventory control system.