竞争供应链网络设计中动态修正随机p中值问题的混合整数线性公式

IF 3.6 Q2 MANAGEMENT
Amir Hossein Sadeghi, Ziyuan Sun, Amirreza Sahebi-Fakhrabad, Hamid Arzani, Robert Handfield
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引用次数: 5

摘要

背景:动态修正随机p中值问题(DMS-p-MP)是供应链网络设计中的一个重要问题,它涉及在动态和不确定环境下设施的最优位置和需求的分配。在这篇研究论文中,我们提出了一个DMS-p-MP的混合整数线性公式,它抓住了问题的关键特征,并允许有效的解决方法。DMS-p-MP为经典问题增加了两个关键特征:(1)它考虑了问题的动态性,其中需求是不确定的,并且随着时间的推移而变化;(2)它允许随着时间的推移修改设施位置,但要进行固定数量的修改。提出的模型使用鲁棒优化,通过允许对数据或参数的微小变化不过于敏感的解决方案的优化来解决需求的不确定性。为了解决大规模DMS-p-MP网络带来的计算挑战,采用了拉格朗日松弛(LR)算法。结果:我们在现实案例研究中的计算研究证明了所提出的公式在解决DMS p-Median问题方面的有效性。结果表明,由于我们需求的周期性,随着时间范围的增加,开放和关闭的建筑物数量保持不变。结论:该公式可应用于现实问题,为决策者在动态和不确定环境中优化供应链网络设计提供有效工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Mixed-Integer Linear Formulation for a Dynamic Modified Stochastic p-Median Problem in a Competitive Supply Chain Network Design
Background: The Dynamic Modified Stochastic p-Median Problem (DMS-p-MP) is an important problem in supply chain network design, as it deals with the optimal location of facilities and the allocation of demand in a dynamic and uncertain environment. Methods: In this research paper, we propose a mixed-integer linear formulation for the DMS-p-MP, which captures the key features of the problem and allows for efficient solution methods. The DMS-p-MP adds two key features to the classical problem: (1) it considers the dynamic nature of the problem, where the demand is uncertain and changes over time, and (2) it allows for the modification of the facility locations over time, subject to a fixed number of modifications. The proposed model uses robust optimization in order to address the uncertainty of demand by allowing for the optimization of solutions that are not overly sensitive to small changes in the data or parameters. To manage the computational challenges presented by large-scale DMS-p-MP networks, a Lagrangian relaxation (LR) algorithm is employed. Results: Our computational study in a real-life case study demonstrates the effectiveness of the proposed formulation in solving the DMS p-Median Problem. The results show that the number of opened and closed buildings remains unchanged as the time horizon increases due to the periodic nature of our demand. Conclusions: This formulation can be applied to real-world problems, providing decision-makers with an effective tool to optimize their supply chain network design in a dynamic and uncertain environment.
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来源期刊
Logistics-Basel
Logistics-Basel Multiple-
CiteScore
6.60
自引率
0.00%
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审稿时长
11 weeks
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