基于站点的汽车共享系统中以效率为导向的共享自主电动车队的车辆迁移

IF 7.4 2区 工程技术 Q1 ENGINEERING, CIVIL Journal of Traffic and Transportation Engineering-English Edition Pub Date : 2024-08-01 DOI:10.1016/j.jtte.2022.12.003
Ning Wang , Hangqi Tian , Jiahui Guo , Huahua Wu , Jian Lyu
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引用次数: 0

摘要

用户等待时间过长、车辆分布严重失衡等问题困扰着传统的站点式单向电动汽车共享系统运营商。针对上述问题,本研究提出了基于自动编队巡航技术的 "需求预测-站点状态判断-车辆调配 "多阶段动态调配算法。第一阶段,建立基于长短期记忆网络的新型出行需求预测模型,预测用户在各站点的取车和还车订单量。第二阶段,结合预测结果和各站点的实际车辆分布情况,确定动态阈值区间,以评估各站点的状态。然后统计车辆过剩站、车辆不足站、车辆正常站以及每个站点的过剩或不足车辆数。第三阶段,以行驶里程和碳排放为优化目标,构建了整数线性规划数学模型,并通过商业求解器 Gurobi 获得了最优车辆迁移方案。以上海市嘉定区 43 个站点、187 辆车为例,结果表明,在 15 分钟内可以实现碳排放量最小的站点间车辆快速重新配置,用户的取车和还车需求可以得到充分满足,没有任何拒绝现象。
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Efficiency-oriented vehicle relocation of shared autonomous electric fleet in station-based car-sharing system

Long waiting delays for users and significant imbalances in vehicle distribution are bothering traditional station-based one-way electric car-sharing system operators. To address the problems above, a “demand forecast-station status judgement-vehicle relocation” multistage dynamic relocation algorithm based on the automatic formation cruising technology was proposed in this study. In stage one, a novel trip demand forecast model based on the long short-term memory network was established to predict users' car-pickup and car-return order volumes at each station. In stage two, a dynamic threshold interval was determined by combining the forecast results with the actual vehicle distribution among stations to evaluate the status of each station. Then vehicle-surplus, vehicle-insufficient, vehicle-normal stations, and the number of surplus or insufficient vehicles for each station were counted. In stage three, setting driving mileage and carbon emission as the optimization objectives, an integer linear programming mathematical model was constructed and the optimal vehicle relocation scheme was obtained by the commercial solver Gurobi. Setting 43 stations and 187 vehicles in Jiading District, Shanghai, China, as a case study, results showed that rapid vehicle rebalancing among stations with minimum carbon emissions could be realized within 15 min and the users’ car-pickup and car-return demands could be fully satisfied without any refusal.

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来源期刊
CiteScore
13.60
自引率
6.30%
发文量
402
审稿时长
15 weeks
期刊介绍: The Journal of Traffic and Transportation Engineering (English Edition) serves as a renowned academic platform facilitating the exchange and exploration of innovative ideas in the realm of transportation. Our journal aims to foster theoretical and experimental research in transportation and welcomes the submission of exceptional peer-reviewed papers on engineering, planning, management, and information technology. We are dedicated to expediting the peer review process and ensuring timely publication of top-notch research in this field.
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