Decision-Focused Predictions via Pessimistic Bilevel Optimization: A Computational Study

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Víctor Bucarey, Sophia Calderón, Gonzalo Muñoz, Frédéric Semet

Published: 01 Jan 2024, Last Modified: 11 Dec 2025CrossrefEveryoneRevisionsCC BY-SA 4.0
Abstract: Dealing with uncertainty in optimization parameters is an important and longstanding challenge. Typically, uncertain parameters are predicted accurately, and then a deterministic optimization problem is solved. However, the decisions produced by this so-called predict-then-optimize procedure can be highly sensitive to uncertain parameters. In this work, we contribute to recent efforts in producing decision-focused predictions, i.e., to build predictive models constructed to minimize a regret measure on the decisions taken with them. We formulate the exact expected regret minimization as a pessimistic bilevel optimization model and then we reformulate it as a non-convex quadratic problem. Finally, we show various computational techniques to achieve tractability. We report extensive computational results on shortest-path instances with uncertain cost vectors. Our results indicate that our approach can improve training performance over the approach of Elmachtoub and Grigas (2022), a state-of-the-art method for decision-focused learning.