Continuous Inventory Models of Diffusion Type: Long-term Average Cost Criterion
Abstract
This paper establishes conditions for optimality of an ordering policy for the minimization of the long-term average cost of one-dimensional diffusion inventory models. The class of such models under consideration have general drift and diffusion coefficients and boundary points that are consistent with the notion that demand should tend to decrease the inventory level. Characterization of the cost of a general policy as a function of two variables naturally leads to a nonlinear optimization problem over the ordering levels and . Existence of an optimizing pair is established for these models. Using the minimal value of , along with , a function is identified which is proven to be a solution of a quasi-variational inequality provided a simple condition holds. At this level of generality, optimality of the ordering policy is established within a large class of ordering policies such that local martingale and transversality conditions involving hold. For specific models, optimality of an policy in the general class of admissible policies can be established using comparison results. This most general optimality result is shown for the classical drifted Brownian motion inventory model with holding and fixed plus proportional ordering costs and for a geometric Brownian motion inventory model with fixed plus level-dependent ordering costs. However, for a drifted Brownian motion process with reflection at , a new class of non-Markovian policies is introduced which have lower costs than the policies. In addition, interpreting reflection at as "just-in-time" ordering, a necessary and sufficient condition is given that determines when just-in-time ordering is better than traditional policies.
Cite
@article{arxiv.1510.06656,
title = {Continuous Inventory Models of Diffusion Type: Long-term Average Cost Criterion},
author = {K. L. Helmes and R. H. Stockbridge and C. Zhu},
journal= {arXiv preprint arXiv:1510.06656},
year = {2015}
}