食品银行单一仓库 FEFO 系统中易腐产品调度的多目标优化

IF 3.7 4区 管理学 Q2 OPERATIONS RESEARCH & MANAGEMENT SCIENCE Operations Research Perspectives Pub Date : 2024-05-07 DOI:10.1016/j.orp.2024.100304
Carlos Aníbal Suárez , Walter A. Guaño , Cinthia C. Pérez , Heydi Roa-López
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引用次数: 0

摘要

发展中国家食品银行仓库面临的主要挑战之一,是如何在确保食品安全、满足营养要求和尽量减少短缺的同时,将易腐产品分配给不同有效期的受益机构。本研究的贡献在于引入了一个全新的多目标、多产品和多周期易腐食品分配问题,该问题基于一个单一的仓库管理系统,采用先到期先出库(FEFO)政策。此外,它还考虑了时间因素,保证只调度符合规定的最低质量标准的易腐产品。加权和方法通过构建所有目标的加权和,将目标函数向量最小化的多目标问题转换为标量问题。然后就可以使用标准的约束优化程序来解决这个问题。拟议的混合整数线性模型通过 CPLEX 求解器求解。通过多目标问题求解,我们可以确定出现短缺的天数和产品。在这种情况下,当可用库存不足时,需要发送的产品总量将根据预先确定的优先级在受益人之间重新分配。这些重新分配被表述为使用基于分数标准的整数编程问题,并通过基于动态编程的精确方法加以解决。计算结果证明了这一新型易腐物品模型在实际研究案例中的适用性。
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Multi-objective optimization for perishable product dispatch in a FEFO system for a food bank single warehouse

One of the main challenges of food bank warehouses in developing countries is to determine how to allocate perishable products to beneficiary agencies with different expiry dates while ensuring food safety, meeting nutritional requirements, and minimizing the shortage. The contribution of this research is to introduce a new multi-objective, multi-product, and multi-period perishable food allocation problem based on a single warehouse management system for a First Expired-First Out (FEFO) policy. Moreover, it incorporates the temporal aspect, guaranteeing the dispatch of only those perishable products that meet the prescribed minimum quality standards. A weighted sum approach converts the multi-objective problem of minimizing a vector of objective functions into a scalar problem by constructing a weighted sum of all the objectives. The problem can then be solved using a standard constrained optimization procedure. The proposed mixed integer linear model is solved by using the CPLEX solver. The solution obtained from the multi-objective problem allows us to identify days and products experiencing shortages. In such cases, when there is insufficient available inventory, the total quantity of product to be dispatched is redistributed among beneficiaries according to a pre-established prioritization. These redistributions are formulated as integer programming problems using a score-based criterion and solved by an exact method based on dynamic programming. Computational results demonstrate the applicability of the novel model for perishable items to a real-world study case.

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来源期刊
Operations Research Perspectives
Operations Research Perspectives Mathematics-Statistics and Probability
CiteScore
6.40
自引率
0.00%
发文量
36
审稿时长
27 days
期刊最新文献
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