Optimal Policies for a Two-Product Inventory System under a Flexible Substitution Scheme

Article

Xu, He; Yao, David D.; Zheng, Shaohui

Huazhong University of Science & Technology; Columbia University; Hong Kong University of Science & Technology

PRODUCTION AND OPERATIONS MANAGEMENT

1059-1478

10.1111/poms.12536

2016

1088-1105

We study a two-product inventory model that allows substitution. Both products can be used to supply demand over a selling season of N periods, with a one-time replenishment opportunity at the beginning of the season. A substitution could be offered even when the demanded product is available. The substitution rule is flexible in the sense that the seller can choose whether or not to offer substitution and at what price or discount level, and the customer may or may not accept the offer, with the acceptance probability being a decreasing function of the substitution price. The decisions are the replenishment quantities at the beginning of the season, and the dynamic substitution-pricing policy in each period of the season. Using a stochastic dynamic programming approach, we present a complete solution to the problem. Furthermore, we show that the objective function is concave and submodular in the inventory levelsstructural properties that facilitate the solution procedure and help identify threshold policies for the optimal substitution/pricing decisions. Finally, with a state transformation, we also show that the objective function is L-h-concave, which allows us to derive similar structural properties of the optimal policy for multiple-season problems.