技术说明-有能力的两梯队库存系统的一种依赖于置换的可分离性方法

Oper. Res. Pub Date : 2021-11-19 DOI:10.1287/opre.2021.2194

Xiaobei Shen, Yimin Yu, W. T. Huh

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引用次数: 0

摘要

由于人工成本的不断上升和先进制造技术的不断发展，可容多级系统在实际应用中越来越普遍。然而，由于固有的复杂性，特别是当存在上游瓶颈时，确定这种系统的最佳补充政策在很大程度上是一个开放的研究领域。Shen, Yu, and Huh在“A置换依赖可分性方法for Capacitated Two-Echelon Inventory system”中，针对上游阶段的产能可能成为瓶颈的有能力两梯队系统，提出了一种新的方法，即置换依赖可分性。结果表明，有能力的两梯队系统在每个时期的价值函数是置换依赖的可分离的，并且对于每个梯队，置换依赖的梯队基存量策略是最优的。作者还开发了如何获得最优策略的有效求解程序。

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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Technical Note - A Permutation-Dependent Separability Approach for Capacitated Two-Echelon Inventory Systems

Analyzing Capacitated Two-Echelon Systems with Permutation-Dependent Separability Capacitated multiechelon systems are common in practice due to the escalating costs of labor and advanced manufacturing technology. However, identifying the optimal replenishment policies for such systems is a largely open area of research due to the intrinsic complexity, especially when there is an upstream bottleneck. In “A Permutation-Dependent Separability Approach for Capacitated Two-Echelon Inventory Systems”, Shen, Yu, and Huh propose a new approach, that is, permutation-dependent separability, to tackle a capacitated two-echelon system in which the capacity of upstream stage can be the bottleneck. They show that the value function for the capacitated two-echelon system in each period is permutation-dependent separable, and that for each echelon, a permutation-dependent echelon base stock policy is optimal. The authors also develop efficient solution procedures on how to obtain the optimal policy.

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Oper. Res.

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