ENERGY EFFICIENCY OPTIMIZATION OF LAST MILE SUPPLY SYSTEM WITH REVERSE LOGISTICS CONSIDERATION

IF 0.8 Q4 ENGINEERING, INDUSTRIAL
M. Akkad, Rana Rabee, T. Bányai
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引用次数: 1

Abstract

Last mile supply system takes great importance in the designed supply chain management, especially in the big urban areas, where various goods delivery locations should be tackled. Transportation routes and vehicles play a critical share in the optimization of the energy spent in this system because it is considered a complicated case due to its high solutions possibilities. Also, part of these transport processes is considered reverse logistics, where the goods take the way back, starting from the customer. Using a metaheuristic optimization is usually a good way to increase operations efficiency and save time and energy, next to raising sustainability. Within this paper, the last mile supply system within urban areas focusing on the goods' delivery and collection tasks is presented. The model design is described, mathematical optimization modelling is detailed, and a case study to investigate the impact of using diesel and electric trucks on energy efficiency is solved. After an introduction and theoretical background that includes a brief literature review, the designed system and used methodology are described. The designed system incorporates cloud computing, real routes of vehicles, analysis of collected data, energy consumption optimization, and time windows. Also, a mathematical model is developed with the aim of optimizing the total energy consumption. Real thirty locations in Budapest in the VII district are described and used as a case study for finding the solutions of the optimized taken routes and energy consumption by the genetic algorithm for both diesel and electric trucks. In the end, the results are analyzed and compared against a random solution to clarify the presented optimization's effectiveness.
考虑逆向物流的最后一公里供电系统能效优化
最后一英里供应系统在设计的供应链管理中非常重要,尤其是在大城市地区,那里需要处理各种货物交付地点。运输路线和车辆在优化该系统中的能源消耗方面发挥着关键作用,因为它被认为是一个复杂的情况,因为它具有很高的解决可能性。此外,这些运输过程的一部分被认为是逆向物流,即货物从客户开始取道返回。除了提高可持续性之外,使用元启发式优化通常是提高运营效率、节省时间和精力的好方法。在本文中,介绍了城市地区的最后一英里供应系统,重点是货物的交付和收集任务。描述了模型设计,详细介绍了数学优化建模,并通过案例研究研究了使用柴油和电动卡车对能源效率的影响。在引言和理论背景(包括简要的文献综述)之后,描述了设计的系统和使用的方法。设计的系统结合了云计算、车辆的真实路线、收集数据的分析、能耗优化和时间窗口。此外,还建立了一个数学模型,旨在优化总能耗。描述了布达佩斯VII区的实际30个地点,并将其作为案例研究,通过遗传算法为柴油和电动卡车寻找优化路线和能耗的解决方案。最后,将结果与随机解进行分析和比较,以阐明所提出的优化的有效性。
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
Acta Logistica
Acta Logistica Engineering-Industrial and Manufacturing Engineering
CiteScore
1.80
自引率
28.60%
发文量
36
审稿时长
4 weeks
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