Designing a New Location-Allocation and Routing Model with Simultaneous Pick-Up and Delivery in a Closed-Loop Supply Chain Network under Uncertainty

IF 3.6 Q2 MANAGEMENT Logistics-Basel Pub Date : 2023-01-10 DOI:10.3390/logistics7010003

Mehrnaz Bathaee, H. Nozari, Agnieszka Szmelter-Jarosz

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引用次数: 4

Abstract

Background: In this paper, a new closed-loop supply chain (CLSC) network model, including economic, social and environmental goals, is designed. This paper’s primary purpose is to meet customers’ uncertain demands in different scenarios where the new robust-fuzzy-probabilistic method has been used to estimate the exact demand. Furthermore, strategic and tactical decisions, such as vehicle routing, facility location and optimal flow allocation in the CLSC network, are considered, and features such as queuing system in product distribution and time window in product delivery are considered. Methods: To solve the problem, NSGA II and MOPSO have been used. Results: The results of solving numerical examples in larger sizes show that as the environmental effects decrease and the social effects increase, the design costs of the total supply chain network (SCN) increase. Moreover, the NSGA II is more efficient than the MOPSO in problem-solving and achieving comparison indicators. Conclusions: The results of sensitivity analysis show that with increasing network uncertainty rate, the total costs of the SCN, the amount of greenhouse gas emissions and the maximum vehicle traffic time increase.

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不确定条件下闭环供应链网络中同时取货的位置分配与路径模型设计

背景：本文设计了一个新的闭环供应链网络模型，包括经济、社会和环境目标。本文的主要目的是在不同的场景中满足客户的不确定需求，其中使用了新的鲁棒模糊概率方法来估计确切的需求。此外，还考虑了CLSC网络中的车辆路线、设施位置和最优流量分配等战略和战术决策，并考虑了产品配送中的排队系统和产品交付中的时间窗口等特征。方法：采用NSGA-II和MOPSO解决上述问题。结果：较大规模的数值算例求解结果表明，随着环境影响的减少和社会影响的增加，整个供应链网络的设计成本增加。此外，NSGA II在解决问题和实现比较指标方面比MOPSO更有效。结论：敏感性分析结果表明，随着网络不确定性率的增加，SCN的总成本、温室气体排放量和最大车辆通行时间都会增加。

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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