Abstract
On-demand station-based one-way carsharing is widely adopted for battery electric vehicle sharing systems, which is regarded as a supplement of urban mobility and a promising approach to the utilization of green energy vehicles. The service model of these carsharing systems allows users to select vehicles based on their own judgment on vehicle battery endurance, while users tend to pick up vehicles with the longest endurance distances. This phenomenon makes instant-access systems lose efficiency on matching available vehicles with diverse user requests and limits carsharing systems for higher capacity. We proposed a vehicle assignment method to allocate vehicles to users that maximize the utility of battery, which requires the system to enable short-term reservation rather than instant access. The methodology is developed from an agent-based discrete event simulation framework with a first-come-first-serve logic module for instant access mode and a resource matching optimization module for short-term reservation mode. Results show that the short-term reservation mode can at most serve 20% more users and create 47% more revenue than instant access mode under the scenario of this research. This paper also points out the equilibrium between satisfying more users by efficiently allocating vehicles and distracting users by disabling instant access and suggests that the reservation time could be 15 minutes.
Highlights
Carsharing has been regarded as one of the innovative urban shared-use transportation modes since the booming of shared economy and mobile Internet technology
Since the one-way station-based on-demand battery electric vehicle carsharing systems play a vital role in the global carsharing business, in this paper, we study the vehicle assignment problem for users according to their desired travel distance under the schemes of instant access and short-term reservation and explore the possibility to improve the operation efficiency
We suggest that adding a matching process by gathering trip distance requests and allocating vehicles for users would increase efficiency. e matching process requires the system to be short-term reservation mode. is mode enables dynamic vehicle relocation for satisfying more demands
Summary
Carsharing has been regarded as one of the innovative urban shared-use transportation modes since the booming of shared economy and mobile Internet technology. Journal of Advanced Transportation e on-demand one-way EVCS presents flexibility that users are endowed with the decision right to choose vehicles according to the SOCs as well as their expected trip distances. To mitigate the unbalance of matching on expected travel distance and battery endurance, it is necessary to develop an optimized vehicle assignment mechanism. E study on matching mechanism between expected travel distance of user and battery endurance of vehicle provides a better understanding on EVCS operation and improves the precision of vehicle relocation. Is paper presents the study on the matching mechanism between expected travel distance and battery endurance and assigning vehicles for users, i.e., to appoint vehicles with appropriate endurance distances for users according to their requested travel distances, to improve vehicle utilization and user satisfaction.
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