Article ID: | iaor20115091 |
Volume: | 23 |
Issue: | 2 |
Start Page Number: | 220 |
End Page Number: | 237 |
Publication Date: | Mar 2011 |
Journal: | INFORMS Journal on Computing |
Authors: | Schaefer Andrew J, Denton Brian T, Huschka Todd R, Batun Sakine |
Keywords: | scheduling, programming: probabilistic, programming: integer, allocation: resources |
Operating room (OR) scheduling is an important operational problem for most hospitals. In this study, we present a novel two‐stage stochastic mixed‐integer programming model to minimize total expected operating cost given that scheduling decisions are made before the resolution of uncertainty in surgery durations. We use this model to quantify the benefit of pooling ORs as a shared resource and to illustrate the impact of parallel surgery processing on surgery schedules. Decisions in our model include the number of ORs to open each day, the allocation of surgeries to ORs, the sequence of surgeries within each OR, and the start time for each surgeon. Realistic‐sized instances of our model are difficult or impossible to solve with standard stochastic programming techniques. Therefore, we exploit several structural properties of the model to achieve computational advantages. Furthermore, we describe a novel set of widely applicable valid inequalities that make it possible to solve practical instances. Based on our results for different resource usage schemes, we conclude that the impact of parallel surgery processing and the benefit of OR pooling are significant. The latter may lead to total cost reductions between 21% and 59% on average.