An integrated inventory and distribution planning problem for the blood products: An application for the Turkish Red Crescent

IF 1.4 Q3 OPERATIONS RESEARCH & MANAGEMENT SCIENCE Decision Science Letters Pub Date : 2023-01-01 DOI:10.5267/j.dsl.2023.1.004
Atıl Kurt, M. Azizoglu, F. C. Çetinkaya
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Abstract

This study considers an integrated inventory planning and distribution problem based on an applied case at the Turkish Red Crescent’s Central Anatolian Regional Blood Center. We define two echelons, the first echelon being the regional blood center and the second echelon being the districts. The blood products are perishable so that the outdated products are disposed of at the end of their lives. We aim to minimize the cost of inventory keeping at both echelons, the shortage, and disposal amounts at the second echelon. We consider two distribution strategies: all deliveries are realized by the regional blood center (current implementation), and the deliveries are directly from the regional blood center or the other districts. We develop a mixed-integer linear programming model for each strategy. Our experimental results show that the decentralized strategy brings significant cost reductions over the centralized strategy. The mathematical model for the centralized distribution strategy can handle large-sized instances. On the other hand, the model for the decentralized distribution strategy is more complex and could not handle large-sized instances in our pre-specified termination limit of two hours. For large-sized instances of the decentralized distribution strategy, we design a decomposition-based heuristic algorithm that benefits from the optimal solutions of the original model and finds near-optimal solutions very quickly.
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血液制品的综合库存和分配计划问题:土耳其红新月会的申请
本研究以土耳其红新月会中部安纳托利亚地区血液中心的应用案例为基础,考虑了一个综合库存规划和分配问题。我们定义了两个梯队,第一梯队是区域血液中心,第二梯队是地区。血液制品是易腐烂的,因此过时的产品在其使用寿命结束时被处理掉。我们的目标是将两个层次的库存成本、短缺成本和第二层次的处置成本降到最低。我们考虑两种配送策略:全部由区域血液中心配送(目前实施),以及直接从区域血液中心或其他地区配送。我们为每种策略建立了一个混合整数线性规划模型。实验结果表明,与集中式策略相比,分散式策略可以显著降低成本。集中式分配策略的数学模型可以处理大型实例。另一方面,去中心化分发策略的模型比较复杂,无法在预先设定的2小时终止限制下处理大型实例。对于分散分布策略的大型实例,我们设计了一种基于分解的启发式算法,该算法受益于原始模型的最优解,并且非常快速地找到近最优解。
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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
期刊最新文献
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