Combining supervised learning and local search for the multicommodity capacitated fixed-charge network design problem

arXiv - MATH - Optimization and Control Pub Date : 2024-09-09 DOI:arxiv-2409.05720

Charly Robinson La Rocca, Jean-François Cordeau, Emma Frejinger

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Abstract

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.

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结合监督学习和局部搜索，解决多容性固定电荷网络设计问题

由于应用范围广泛，文献中对多容性固定电荷网络设计问题进行了广泛研究。尽管目前存在许多复杂的求解方法，但要为大规模实例找到高质量的解决方案仍然具有挑战性。在本文中，我们将探讨数据驱动方法如何帮助改善现有技术水平。通过利用机器学习模型，我们试图揭示隐藏在数据中的模式，而传统的优化方法可能很难捕捉到这些模式。为了提高可扩展性，我们提出了一种预测方法，在这种方法中，机器学习模型是在图的每个弧的层次上调用的。我们利用通过监督学习训练的现成模型来预测接近最优的解决方案。我们的实验结果包括算法设计分析，该分析比较了本地搜索算法中的各种预测集成策略。我们将基于 ML 的方法与最先进的启发式方法进行了比较。研究结果表明，在从均匀分布中抽样的实例集上，我们的方法优于领先的启发式方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - MATH - Optimization and Control

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