Article ID: | iaor2010200 |
Volume: | 57 |
Issue: | 1 |
Start Page Number: | 71 |
End Page Number: | 87 |
Publication Date: | Feb 2010 |
Journal: | Naval Research Logistics |
Authors: | Chao Xiuli, Zhou Sean X |
Keywords: | supply & supply chains |
We study an infinite‐horizon, N‐stage, serial production/inventory system with two transportation modes between stages: regular shipping and expedited shipping. The optimal inventory policy for this system is a top–down echelon base‐stock policy, which can be computed through minimizing 2N nested convex functions recursively (Lawson and Porteus, Oper Res 48 (2000), 878–893). In this article, we first present some structural properties and comparative statics for the parameters of the optimal inventory policies, we then derive simple, newsvendor‐type lower and upper bounds for the optimal control parameters. These results are used to develop near optimal heuristic solutions for the echelon base‐stock policies. Numerical studies show that the heuristic performs well.