双面队列及其在疫苗库存管理中的应用

IF 1.9 4区管理学 Q3 OPERATIONS RESEARCH & MANAGEMENT SCIENCE

Naval Research Logistics Pub Date : 2024-08-28 DOI:10.1002/nav.22224

Haoran Wu, Qi‐Ming He, Fatih Safa Erenay

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引用次数: 0

摘要

我们考虑了一种具有批量马尔可夫到达过程（BMAP）和有限离散放弃时间的双面排队模型，这种模型出现在各种随机系统中，如易腐库存系统和金融市场。客户带着一批订单来到系统，等待对应方匹配。在等待匹配的过程中，客户会变得不耐烦，可能会放弃系统而不提供服务。客户的放弃时间取决于其批量大小及其在队列中的位置。首先，我们提出了一种通过多层马尔可夫调制流体流动过程的静态分析来获得年龄过程静态联合分布的方法。其次，利用队龄过程的静态联合分布，我们推导出与系统双方的匹配率、填充率、停留时间和队列长度相关的一些队列量。最后，我们应用我们的模型分析了一个疫苗库存系统，并深入了解了供需过程的不确定性对库存系统性能的影响。结果表明，在不确定性较高的系统中，BMAP 是供需过程建模的更好选择，可获得更精确的性能量。

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Double‐sided queues and their applications to vaccine inventory management

We consider a double‐sided queueing model with batch Markovian arrival processes (BMAPs) and finite discrete abandonment times, which arises in various stochastic systems such as perishable inventory systems and financial markets. Customers arrive at the system with a batch of orders to be matched by counterparts. While waiting to be matched, customers become impatient and may abandon the system without service. The abandonment time of a customer depends on its batch size and its position in the queue. First, we propose an approach to obtain the stationary joint distribution of age processes via the stationary analysis of a multi‐layer Markov modulated fluid flow process. Second, using the stationary joint distribution of the age processes, we derive a number of queueing quantities related to matching rates, fill rates, sojourn times and queue length for both sides of the system. Last, we apply our model to analyze a vaccine inventory system and gain insight into the effect of uncertainty in supply and demand processes on the performance of the inventory system. It is observed that BMAPs are better choices for modeling the supply/demand process in systems with high uncertainty for more accurate performance quantities.

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来源期刊

Naval Research Logistics 管理科学-运筹学与管理科学

CiteScore

4.20

自引率

4.30%

发文量

审稿时长

8 months

期刊介绍： Submissions that are most appropriate for NRL are papers addressing modeling and analysis of problems motivated by real-world applications; major methodological advances in operations research and applied statistics; and expository or survey pieces of lasting value. Areas represented include (but are not limited to) probability, statistics, simulation, optimization, game theory, quality, scheduling, reliability, maintenance, supply chain, decision analysis, and combat models. Special issues devoted to a single topic are published occasionally, and proposals for special issues are welcomed by the Editorial Board.