绿色车辆路径问题的元启发式方法

Q3 Decision Sciences Yugoslav Journal of Operations Research Pub Date : 2022-01-01 DOI:10.2298/yjor211120016m

Luka Matijević

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引用次数: 1

摘要

绿色车辆路径问题(GVRP)是一个相对较新的课题，其目的是尽量减少车队产生的温室气体(GHG)排放。同时考虑了内燃车辆(ICV)和替代燃料车辆(AFV)，将GVRP分为两个独立的子类:基于ICV的GVRP和基于AFV的GVRP。在基于icv的子类中，环境方面来自于目标函数，其目的是最小化icv的温室气体排放或燃料使用。另一方面，基于afv的GVRP的环境方面是隐含的，并且来自于在运输中使用afv。由于GVRP是np困难的，在合理的时间内找到确切的解决方案对于较大的实例通常是不可能的，这就是为什么主要使用元启发式方法。本研究的目的是发现文献中的空白，并为该领域的未来研究提出建议。为此，我们回顾了最近用一些元启发式方法解决GVRP的论文，并描述了算法细节、VRP属性和其中使用的目标。

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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Metaheuristic approaches for the green vehicle routing problem

The green vehicle routing problem (GVRP) is a relatively new topic, which aims to minimize greenhouse gasses (GHG) emissions produced by a fleet of vehicles. Both internal combustion vehicles (ICV) and alternative fuel vehicles (AFV) are considered, dividing GVRP into two separate subclasses: ICV-based GVRP and AFV-based GVRP. In the ICV-based subclass, the environmental aspect comes from the objective function which aims to minimize GHG emissions or fuel usage of ICVs. On the other hand, the environmental aspect of AFV-based GVRP is implicit and comes from using AFVs in transport. Since GVRP is NP-hard, finding the exact solution in a reasonable amount of time is often impossible for larger instances, which is why metaheuristic approaches are predominantly used. The purpose of this study is to detect gaps in the literature and present suggestions for future research in the field. For that purpose, we review recent papers in which GVRP was tackled by some metaheuristic methods and describe algorithm specifics, VRP attributes, and objectives used in them.

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