An Adaptive Three-Stage Algorithm For Solving Adjustable Min-Max-Regret Problems
Abstract
This work uniquely combines an affine linear decision rule known from adjustable robustness with min-max-regret robustness. By doing so, the advantages of both concepts can be obtained with an adjustable solution that is not over-conservative. This combination results in a bilevel optimization problem. For solving this problem, a three-stage algorithm which uses adaptive discretization of the uncertainty set via two criteria is presented and its convergence is proven. The algorithm is applicable for an example of optimizing a robust pump operation plan for a drinking water supply system facing uncertain demand. The algorithm shows a notable ability to scale, presenting an opportunity to solve larger instances that might challenge existing optimization approaches.
Cite
@article{arxiv.2411.19174,
title = {An Adaptive Three-Stage Algorithm For Solving Adjustable Min-Max-Regret Problems},
author = {Kerstin Schneider and Helene Krieg and Dimitri Nowak and Karl-Heinz Küfer},
journal= {arXiv preprint arXiv:2411.19174},
year = {2024}
}
Comments
25 pages, 3 figures