Highlights We extend electric vehicle routing models to consider nonlinear charging functions. We propose a metaheuristic to solve the electric VRP with nonlinear charging function (E-VRP-NL). We introduce a neighborhood that optimizes the charging decisions of a fixed route. Neglecting the nonlinear nature of the charging function may lead to infeasible or overly expensive solutions. Good E-VRP-NL solutions use multiple mid-route charges and exploit partial recharges.
Abstract Electric vehicle routing problems (E-VRPs) extend classical routing problems to consider the limited driving range of electric vehicles. In general, this limitation is overcome by introducing planned detours to battery charging stations. Most existing E-VRP models assume that the battery-charge level is a linear function of the charging time, but in reality the function is nonlinear. In this paper we extend current E-VRP models to consider nonlinear charging functions. We propose a hybrid metaheuristic that combines simple components from the literature and components specifically designed for this problem. To assess the importance of nonlinear charging functions, we present a computational study comparing our assumptions with those commonly made in the literature. Our results suggest that neglecting nonlinear charging may lead to infeasible or overly expensive solutions. Furthermore, to test our hybrid metaheuristic we propose a new 120-instance testbed. The results show that our method performs well on these instances.
The electric vehicle routing problem with nonlinear charging function
Transportation Research Part B: Methodological ; 103 ; 87-110
2017-02-08
24 pages
Article (Journal)
Electronic Resource
English
The electric vehicle routing problem with nonlinear charging function
Online Contents | 2017
|The electric vehicle routing problem with nonlinear charging function
Online Contents | 2017
|Electric vehicle‐routing problem with charging demands and energy consumption
Wiley | 2018
|Electric vehicle-routing problem with charging demands and energy consumption
IET | 2018
|