Joint pricing and inventory control for a stochastic inventory system with Brownian motion demand (1608.03033v2)

Abstract: In this paper, we consider an infinite horizon, continuous-review, stochastic inventory system in which cumulative customers' demand is price-dependent and is modeled as a Brownian motion. Excess demand is backlogged. The revenue is earned by selling products and the costs are incurred by holding/shortage and ordering, the latter consists of a fixed cost and a proportional cost. Our objective is to simultaneously determine a pricing strategy and an inventory control strategy to maximize the expected long-run average profit. Specifically, the pricing strategy provides the price $p_t$ for any time $t\geq0$ and the inventory control strategy characterizes when and how much we need to order. We show that an $(s^,S^,p^*)$ policy is optimal and obtain the equations of optimal policy parameters, where $p^={p_t^:t\geq 0}$. Furthermore, we find that at each time $t$, the optimal price $p_t^*$ depends on the current inventory level $z$, and it is increasing in $[s^,z^]$ and is decreasing in $[z^*,\infty)$, where $z^*$ is a negative level.