An order postponement strategy for multi-stage production-logistics synchronization towards zero-warehousing smart manufacturing

IF 12.2 1区工程技术 Q1 ENGINEERING, INDUSTRIAL

Journal of Manufacturing Systems Pub Date : 2025-07-01 DOI:10.1016/j.jmsy.2025.06.024

Mingxing Li , Xiaoyu Qian , Ming Li , Ting Qu , Zhen He

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引用次数: 0

Abstract

Nowadays, driven by market dynamics and evolving consumer demands, customized production has emerged as a prevalent trend. This paradigm shift from mass production to customization introduces challenges in production-logistics management, compelling manufacturers to pursue efficient strategies. Zero-warehousing smart manufacturing (ZWSM), an advanced form of Lean manufacturing (LM) and Just-In-Time production (JIT), presents a potential solution to these challenges. ZWSM leverages Industry 4.0 technologies to facilitate seamless production-logistics for eliminating warehouses and minimizing inventory in workshop. Despite the encouraging visions, field study reveals that ZWSM requires highly coordinated material supply, production, and delivery operations, misalignment among these stages frequently results in operational inefficiencies and resource waste, especially when confronted with volatile and diversified customer demand. It is defined as Multi-Stage Production-Logistics Synchronization (MS-PLSync) problem. This study proposes a novel order postponement strategy for MS-PLSync towards ZWSM, a generalizable MS-PLSync model under assemble-to-order (ATO) is formulated using mixed-integer linear programming for production-logistics operations under intricate spatiotemporal constraints. Considering dynamic order arrivals, a postponement strategy is designed and integrated into MS-PLSync model to enhance overall operational efficiency through postponed real-time decision-making, achieving a balance between rapid response to demand fluctuations and economy of scale in customized production-logistics. Numerical analysis validates the effectiveness of the proposed postponement strategy in addressing MS-PLSync problem. Notably, a little postponement can yield substantial operational benefits, while excessive postponement only generates minimal marginal benefits. Furthermore, sensitivity analysis reveals that the proposed postponement strategy performs particularly well in mass customization scenarios characterized by large-scale orders, diverse product portfolios, and extensive distribution networks.

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面向零仓储智能制造的多阶段生产物流同步订单延迟策略

如今，在市场动态和不断变化的消费者需求的驱动下，定制生产已经成为一种普遍趋势。这种从大规模生产到定制的模式转变给生产物流管理带来了挑战，迫使制造商追求高效的战略。零仓储智能制造（ZWSM）是精益制造（LM）和准时生产（JIT）的一种高级形式，为这些挑战提供了潜在的解决方案。ZWSM利用工业4.0技术促进无缝生产物流，以消除仓库并最大限度地减少车间库存。尽管前景令人鼓舞，但实地研究表明，ZWSM需要高度协调的材料供应、生产和交付操作，这些阶段之间的不协调经常导致操作效率低下和资源浪费，特别是在面对多变和多样化的客户需求时。它被定义为多阶段生产-物流同步（MS-PLSync）问题。本文提出了一种面向ZWSM的MS-PLSync订单延迟策略，利用混合整数线性规划方法，建立了复杂时空约束下生产物流操作的装配到订单（ATO）模式下的广义MS-PLSync模型。考虑到订单到达的动态，设计了一种延迟策略，并将其集成到MS-PLSync模型中，通过延迟的实时决策来提高整体运营效率，实现对需求波动的快速响应和定制化生产物流的规模经济之间的平衡。数值分析验证了所提出的延迟策略解决MS-PLSync问题的有效性。值得注意的是，一点延迟可以产生实质性的操作效益，而过度延迟只能产生最小的边际效益。灵敏度分析表明，所提出的延迟策略在订单量大、产品组合多样、分销网络广泛的大规模定制场景下具有较好的效果。

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

Journal of Manufacturing Systems 工程技术-工程：工业

CiteScore

23.30

自引率

13.20%

发文量

216

审稿时长

25 days

期刊介绍： The Journal of Manufacturing Systems is dedicated to showcasing cutting-edge fundamental and applied research in manufacturing at the systems level. Encompassing products, equipment, people, information, control, and support functions, manufacturing systems play a pivotal role in the economical and competitive development, production, delivery, and total lifecycle of products, meeting market and societal needs. With a commitment to publishing archival scholarly literature, the journal strives to advance the state of the art in manufacturing systems and foster innovation in crafting efficient, robust, and sustainable manufacturing systems. The focus extends from equipment-level considerations to the broader scope of the extended enterprise. The Journal welcomes research addressing challenges across various scales, including nano, micro, and macro-scale manufacturing, and spanning diverse sectors such as aerospace, automotive, energy, and medical device manufacturing.