A planning model for repairable spare part supply chain considering stochastic demand and backorder: an empirical investigation

IF 1.4 Q3 OPERATIONS RESEARCH & MANAGEMENT SCIENCE
Vahid B abaveisi, E. Teimoury, M. Gholamian
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Abstract

Today, improving machine availability is vital for industries to compete in the global market. Spare parts play an essential role in the maintenance and repair of equipment, but planning an extensive network in strategic industries with various spare parts can be very challenging due to the existence of different decision factors. The spare parts supply chain deals with inventory management issues, which necessitates considering the related decisions such as determining the stock level and order quantity. Moreover, demand uncertainty and long supply time make decision-making more complex. This paper presents a repair and supply planning model for repairable spare parts while considering a modified formulation of demand uncertainty to minimize costs. The model determines the optimal stock level, lateral transshipment, assignment of spare part orders to suppliers, equipment to repair centers, and the number of intervals over the planning horizon used in demand estimation. This research contributes to the literature by integrating recent decisions, using demand approximation by piecewise linearization, and considering backorder in warehouses evaluated by queuing models. A hybrid approach, including heuristic and genetic algorithms, is used to optimize the model using data from an oil company. The results show that using piecewise linearization and integrated repair and supply planning decisions optimizes costs and improves performance. Also, the availability is affected by the demand estimation, which necessitates precision prediction.
考虑随机需求和缺货的可修备件供应链规划模型:实证研究
今天,提高机器的可用性对于工业在全球市场上的竞争至关重要。备件在设备的维护和维修中起着至关重要的作用,但由于存在不同的决策因素,在具有各种备件的战略行业中规划一个广泛的网络是非常具有挑战性的。备件供应链涉及库存管理问题,需要考虑确定库存水平和订单数量等相关决策。此外,需求的不确定性和较长的供给时间使得决策更加复杂。在考虑需求不确定性的前提下,建立了可修备件的维修与供应规划模型。该模型确定了最优库存水平、横向转运、备件订单分配给供应商、设备分配给维修中心,以及用于需求估计的计划范围内的间隔数。本研究通过整合最近的决策,使用分段线性化的需求近似,以及考虑排队模型评估的仓库缺货,为文献做出了贡献。利用某石油公司的数据,采用启发式和遗传算法等混合方法对模型进行优化。结果表明,采用分段线性化和综合维修供应计划决策可以优化成本,提高性能。此外,可用性受到需求估计的影响,这就需要精确的预测。
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
Decision Science Letters
Decision Science Letters Decision Sciences-Decision Sciences (all)
CiteScore
3.40
自引率
5.30%
发文量
49
审稿时长
20 weeks
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