Connected Vehicle Enhanced Vehicle Routing with Intersection Turning Cost Estimation

2018 21st International Conference on Intelligent Transportation Systems (ITSC) Pub Date : 2018-11-01 DOI:10.1109/ITSC.2018.8569246

Hao Yang, K. Oguchi

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引用次数: 5

Abstract

On arterial corridors, due to traffic signals and vehicle demands at all different approaches, traffic conditions can be very different across lanes. Vehicular queues and average speed at different lanes, especially lane groups with different turns, can be extremely different even under the same road segment. This paper develops an innovative vehicle routing system with the consideration of vehicle queues and delays as the turning costs to search for the optimal routes for individual vehicles. The algorithm applies connected vehicles to estimate turning costs and dynamically updates vehicle routes with the prediction of the costs at each intersection along the routes. The system is incorporated in the INTEGRATION microscopic traffic simulator to conduct a comprehensive evaluation. The results indicate that the proposed algorithm can reduce the average travel time of connected vehicles and entire networks by up to 49% at one congested grid network. The impact of market penetration rates of connected vehicles is also investigated in this paper.

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基于交叉口转弯成本估算的互联车辆路径优化

在主干道上，由于不同通道的交通信号和车辆需求，不同车道的交通状况可能会有很大差异。在同一路段下，不同车道，特别是不同转弯的车道组上的车辆队列和平均速度可能存在极大差异。本文开发了一种创新的车辆路径系统，将车辆排队和延误作为转向成本，为单个车辆寻找最优路径。该算法利用联网车辆估算转弯成本，并通过预测沿线各路口的转弯成本动态更新车辆路线。将该系统集成到INTEGRATION微观交通模拟器中进行综合评估。结果表明，在一个拥挤的电网中，该算法可以将联网车辆和整个网络的平均行驶时间缩短49%。本文还研究了网联汽车市场渗透率的影响。

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

2018 21st International Conference on Intelligent Transportation Systems (ITSC)

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