Uncapacitated multi-item lot sizing with shipment minimization

IF 4.1 2区工程技术 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Computers & Operations Research Pub Date : 2025-06-22 DOI:10.1016/j.cor.2025.107169

Marcel Turkensteen , Wilco van den Heuvel

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引用次数: 0

Abstract

Companies often order multiple items from suppliers. There can be environmental and economic benefits from combining these orders. Based on a company case, we formulate the problem of determining in which periods orders for multiple items should be placed to minimize the sum of the order and inventory costs. As a second objective, the goal is to limit the number of shipment periods and we measure the impact of varying this number. We call this problem the Bi-objective Lot Sizing Problem with Shipment Minimization (BLSPSM). This problem combines an overarching problem, namely the determination of shipment periods, with subproblems for each item, namely the determination of order periods and order quantities. We develop so-called bi-level dynamic programming heuristics for the BLSPSM, where the bi-level nature of the problem is exploited. We find efficient frontiers very close to the optimal ones for all instances in our test set. Moreover, we show that our heuristic performs well on the Dynamic Joint Replenishment Problem, a special case of BLSPSM and a known problem in the literature.

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无容量的多项目批量尺寸与装运最小化

公司通常会向供应商订购多种产品。将这些订单结合起来可以带来环境和经济效益。基于一个公司的案例，我们提出了一个问题，确定在哪个时期应该下多个项目的订单，以最小化订单和库存成本的总和。作为第二个目标，我们的目标是限制装运周期的数量，并衡量改变这个数量的影响。我们称这个问题为装运量最小化的双目标批量问题。这个问题结合了一个总体问题，即发货周期的确定，以及每个项目的子问题，即订单周期和订单数量的确定。我们为BLSPSM开发了所谓的双层动态规划启发式，其中利用了问题的双层性质。我们发现有效边界非常接近我们测试集中所有实例的最优边界。此外，我们证明了我们的启发式算法在动态联合补给问题上表现良好，动态联合补给问题是BLSPSM的一个特殊情况，也是文献中已知的问题。

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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来源期刊

Computers & Operations Research 工程技术-工程：工业

CiteScore

8.60

自引率

8.70%

发文量

292

审稿时长

8.5 months

期刊介绍： Operations research and computers meet in a large number of scientific fields, many of which are of vital current concern to our troubled society. These include, among others, ecology, transportation, safety, reliability, urban planning, economics, inventory control, investment strategy and logistics (including reverse logistics). Computers & Operations Research provides an international forum for the application of computers and operations research techniques to problems in these and related fields.