Forward and Reverse Logistics Network Design with Sustainability for New and Refurbished Products in E-commerce

IF 2.4 Q3 MANAGEMENT
Yash Daultani, N. Cheikhrouhou, S. Pratap, Dhirendra Prajapati
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引用次数: 2

Abstract

There has been an enormous growth in the availability of refurbished goods in the online marketplace. These days, consumers can buy either the new products or refurbished products based on their budget and individual preferences. As a result, e-commerce firms need to redesign their existing forward and reverse logistics networks while focusing on supply chain sustainability. This paper proposes a novel forward and reverses logistics network design (FRLND) along with a consumer pickup and demand facility within the promised time window while addressing the complexities related to e-commerce platforms, suppliers, manufacturers, third-party logistics providers, retailers, and customer tiers. A mixed-integer non-linear programming (MINLP) model is developed to minimize the overall anticipated cost that consists of costs related to procurement, production, inventory holding, shortages, material for return units, recycling, repairing, disposal, and transportation cost, across the entire supply chain network. The problem under consideration is NP-hard in nature. The special challenges of the problem in consideration are to consider all pickup and distribution nodes of retailers/customers within the range of promising time horizons. For solution purposes, the Block-based Genetic Algorithm, Fruit-fly Algorithm, and CPLEX are used. Computational experiments show the comparative charts and trends that are put on to an extensive range of practical scenarios. The experiments reveal that the Genetic Algorithm performs well than the Fruit Fly algorithm in terms of rate of convergence and solution quality in all cases of interest. CPLEX solution provides the minimum optimal value
电子商务中新产品和翻新产品的可持续性正向和逆向物流网络设计
在线市场上翻新商品的可用性有了巨大的增长。如今,消费者可以根据自己的预算和个人喜好购买新产品或翻新产品。因此,电子商务公司需要重新设计其现有的正向和逆向物流网络,同时注重供应链的可持续性。本文提出了一种新颖的正向和反向物流网络设计(FRLND),以及在承诺的时间窗口内的消费者取货和需求设施,同时解决了与电子商务平台、供应商、制造商、第三方物流提供商、零售商和客户层相关的复杂性。开发了混合整数非线性规划(MINLP)模型,以最小化整个供应链网络中与采购,生产,库存持有,短缺,退货单元材料,回收,维修,处置和运输成本相关的总体预期成本。所考虑的问题本质上是np困难的。所考虑的问题的特殊挑战是在有希望的时间范围内考虑零售商/客户的所有拾取和分发节点。为了解决问题,使用了基于块的遗传算法、果蝇算法和CPLEX。计算实验表明,比较图表和趋势是放在广泛的实际情况。实验表明,在所有感兴趣的情况下,遗传算法在收敛速度和解质量方面都优于果蝇算法。CPLEX方案提供最小的最优值
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
CiteScore
5.40
自引率
27.80%
发文量
22
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