A Bilevel Framework For Decision-making Under Uncertainty With Contextual Information

This is a summary of the work that can be found in [1]. Open Access pdf is available at [2].

Abstract

In this paper, we propose a novel approach for data-driven decision-making under uncertainty in the presence of contextual information. Given a finite collection of observations of the uncertain parameters and potential explanatory variables (i.e., the contextual information), our approach fits a parametric model to those data that is specifically tailored to maximizing the decision value, while accounting for possible feasibility constraints. From a mathematical point of view, our framework translates into a bilevel program, for which we provide both a fast regularization procedure and a big-M-based reformulation that can be solved using off-the-shelf optimization solvers. We showcase the benefits of moving from the traditional scheme for model estimation (based on statistical quality metrics) to decision-guided prediction using three different practical problems. We also compare our approach with existing ones in a realistic case study that considers a strategic power producer that participates in the Iberian electricity market. Finally, we use these numerical simulations to analyze the conditions (in terms of the firm’s cost structure and production capacity) under which our approach proves to be more advantageous to the producer..

Citation

If you would like to cite this work, please use the following citation:

M.A. Muñoz, S. Pineda, J.M. Morales, A bilevel framework for decision-making under uncertainty with contextual information, Omega, vol. 108, pp. 102575, Abril, 2022.

You can use this bibtex entry:

@article{MUNOZ2022102575,
  title={A bilevel framework for decision-making under uncertainty with contextual information},
  author={M.A. Muñoz and S. Pineda and J.M. Morales},
  journal={Omega},
  volume={108},
  number={},
  pages={102575},
  year={2022},
  publisher={Elsevier}
}