局部弯曲分解:一般方法及其在随机网络设计中的应用

T. Crainic, Mike Hewitt, F. Maggioni, W. Rei
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引用次数: 27

摘要

Benders分解是一种应用广泛的随机规划精确求解方法,越来越多地应用于求解不确定条件下的运输和物流规划问题。然而,这种策略也有重要的缺点,比如松弛步骤之后的弱主问题,将双重切割限制在场景子问题中。在本文中,我们提出了一种局部Benders分解方法,该方法基于在主问题中包含场景子问题的显式信息的思想。为了研究这种方法的好处,我们将其应用于求解一类一般的两阶段随机多商品网络设计模型。具体来说,我们解决了具有挑战性的模型变体,其中需求和电弧容量都是随机的。通过广泛的实验活动,我们清楚地表明,所提出的方法在计算效率、解决方案质量和解决方案过程的稳定性方面产生了显著的好处。
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Partial Benders Decomposition: General Methodology and Application to Stochastic Network Design
Benders decomposition is a broadly used exact solution method for stochastic programs, which has been increasingly applied to solve transportation and logistics planning problems under uncertainty. However, this strategy comes with important drawbacks, such as a weak master problem following the relaxation step that confines the dual cuts to the scenario subproblems. In this paper, we propose a partial Benders decomposition methodology, based on the idea of including explicit information from the scenario subproblems in the master. To investigate the benefits of this methodology, we apply it to solve a general class of two-stage stochastic multicommodity network design models. Specifically, we solve the challenging variant of the model where both the demands and the arc capacities are stochastic. Through an extensive experimental campaign, we clearly show that the proposed methodology yields significant benefits in computational efficiency, solution quality, and stability of the solution process.
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