A novel heuristic approach for planning decentralised supply chain under uncertainties

IF 5.4 3区材料科学 Q2 CHEMISTRY, PHYSICAL

ACS Applied Energy Materials Pub Date : 2023-09-19 DOI:10.1080/23302674.2023.2258778

Marjia Haque, Sanjoy Kumar Paul, Ruhul Sarker, Daryl Essam

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引用次数: 0

Abstract

AbstractCoordinating various activities among company members facing real-life uncertainties or disruptions is a great issue of concern in today’s business world. With this background, a multi-stage decentralised supply chain (SC) network is studied in this paper, where demand uncertainties are considered in each stage of the chain. We consider a serial SC network with single independent entities (manufacturer – distributor – retailer) in each level under restricted information sharing characteristics. The increased variability of uncertain demand through upward sections of the chain is studied. A two-phase planning model is proposed to coordinate the independent members with random customer demand. We develop a scenario-based stochastic optimisation approach where a probability is assigned for each scenario. A rolling horizon-based dynamic updating approach is proposed to update the model results for the current period as uncertainties are revealed. We develop a rule-based solution heuristic and conduct numerical analyses to validate the model. Our results are compared with two approaches – deterministic with mean demand and centralised structure with multiple scenarios. The comparative result shows that our model provides better feasible results with fewer shortage costs. Also, sensitivity analyses are performed on important parameters to observe their effect on the model.KEYWORDS: Decentralised supply chainDemand uncertaintyHeuristicScenario-based analysis Data availability statementAll data are included inside the manuscript.Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationNotes on contributorsMarjia HaqueMarjia Haque is a Casual Academic in the School of Engineering and IT (SEIT) at UNSW Canberra, Australia. Her research interests include supply chain management, operations management, applied operations research and decision analytics.Sanjoy Kumar PaulSanjoy Kumar Paul is an Associate Professor at the UTS Business School, University of Technology Sydney, Sydney, Australia. His research interests include sustainable and resilient supply chains, applied operations research, modelling and simulation, and intelligent decision-making.Ruhul SarkerRuhul Sarker is a Professor in the School of Engineering and IT (SEIT) at UNSW Canberra, Australia. His broad research interests include decision analytics, CI / evolutionary computation, operations research, and applied optimisation.Daryl EssamDaryl Essam a Senior Lecturer in the School of Engineering and IT (SEIT) at UNSW Canberra, Australia. His research interests include genetic algorithms, with a focus on both evolutionary optimisation and large-scale problems.

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不确定条件下分散供应链规划的一种启发式新方法

摘要面对现实生活中的不确定性或中断，协调公司成员之间的各种活动是当今商业世界关注的重大问题。在此背景下，本文研究了一个多阶段分散供应链网络，该网络在供应链的每个阶段都考虑了需求的不确定性。在有限信息共享的条件下，考虑一个具有单个独立实体(制造商-分销商-零售商)的串行供应链网络。研究了不确定需求在供应链上行部分增加的可变性。提出了一种两阶段规划模型来协调具有随机客户需求的独立成员。我们开发了一种基于场景的随机优化方法，其中为每个场景分配概率。提出了一种基于滚动水平面的动态更新方法，用于在不确定性出现时对模型结果进行当期更新。我们开发了一个基于规则的启发式解决方案，并进行数值分析来验证模型。我们的结果与两种方法进行了比较-具有平均需求的确定性方法和具有多个场景的集中式结构。对比结果表明，该模型以较少的短缺成本提供了较好的可行性结果。同时，对重要参数进行敏感性分析，观察其对模型的影响。关键词:分散供应链需求不确定性启发式基于场景的分析数据可用性声明所有数据都包含在手稿中。披露声明作者未报告潜在的利益冲突。作者简介:marjia Haque是澳大利亚堪培拉新南威尔士大学工程与信息技术学院(SEIT)的一名非正式学者。她的研究兴趣包括供应链管理、运营管理、应用运筹学和决策分析。Sanjoy Kumar Paul，澳大利亚悉尼科技大学悉尼科技大学商学院副教授。他的研究兴趣包括可持续和弹性供应链，应用运筹学，建模和仿真，以及智能决策。Ruhul Sarker，澳大利亚堪培拉新南威尔士大学工程与信息技术学院(SEIT)教授。他广泛的研究兴趣包括决策分析、CI /进化计算、运筹学和应用优化。Daryl Essam，澳大利亚堪培拉新南威尔士大学工程与信息技术学院(SEIT)高级讲师。他的研究兴趣包括遗传算法，重点是进化优化和大规模问题。

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来源期刊

ACS Applied Energy Materials Materials Science-Materials Chemistry

CiteScore

10.30

自引率

6.20%

发文量

1368

期刊介绍： ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.