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Main Authors: La Rocca, Charly Robinson, Cordeau, Jean-François, Frejinger, Emma
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.05720
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author La Rocca, Charly Robinson
Cordeau, Jean-François
Frejinger, Emma
author_facet La Rocca, Charly Robinson
Cordeau, Jean-François
Frejinger, Emma
contents The multicommodity capacitated fixed-charge network design problem has been extensively studied in the literature due to its wide range of applications. Despite the fact that many sophisticated solution methods exist today, finding high-quality solutions to large-scale instances remains challenging. In this paper, we explore how a data-driven approach can help improve upon the state of the art. By leveraging machine learning models, we attempt to reveal patterns hidden in the data that might be difficult to capture with traditional optimization methods. For scalability, we propose a prediction method where the machine learning model is called at the level of each arc of the graph. We take advantage of off-the-shelf models trained via supervised learning to predict near-optimal solutions. Our experimental results include an algorithm design analysis that compares various integration strategies of predictions within local search algorithms. We benchmark the ML-based approach with respect to the state-of-the-art heuristic for this problem. The findings indicate that our method can outperform the leading heuristic on sets of instances sampled from a uniform distribution.
format Preprint
id arxiv_https___arxiv_org_abs_2409_05720
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Combining supervised learning and local search for the multicommodity capacitated fixed-charge network design problem
La Rocca, Charly Robinson
Cordeau, Jean-François
Frejinger, Emma
Optimization and Control
The multicommodity capacitated fixed-charge network design problem has been extensively studied in the literature due to its wide range of applications. Despite the fact that many sophisticated solution methods exist today, finding high-quality solutions to large-scale instances remains challenging. In this paper, we explore how a data-driven approach can help improve upon the state of the art. By leveraging machine learning models, we attempt to reveal patterns hidden in the data that might be difficult to capture with traditional optimization methods. For scalability, we propose a prediction method where the machine learning model is called at the level of each arc of the graph. We take advantage of off-the-shelf models trained via supervised learning to predict near-optimal solutions. Our experimental results include an algorithm design analysis that compares various integration strategies of predictions within local search algorithms. We benchmark the ML-based approach with respect to the state-of-the-art heuristic for this problem. The findings indicate that our method can outperform the leading heuristic on sets of instances sampled from a uniform distribution.
title Combining supervised learning and local search for the multicommodity capacitated fixed-charge network design problem
topic Optimization and Control
url https://arxiv.org/abs/2409.05720