等辅助交通灯管制计划,以减少车辆的二氧化碳排放量

Chunxiao Li, S. Shimamoto
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引用次数: 14

摘要

本文提出了一种基于etc辅助的车辆网络实时交通灯控制方案。使用电子收费(ETC)设备,可以通过ETC设备与交通灯之间的无线通信获取实时路况。采用决策树分类算法分配交通信号灯的变换策略,计算出最优平均等待时间。更少的等待时间将导致更少的燃料消耗和二氧化碳排放。与目前应用最广泛的固定时间控制相比,etc辅助的实时红绿灯控制方案在减少平均等待时间、提高不停车通过率、减少co2排放等方面具有更好的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ETC ASSISTED TRAFFIC LIGHT CONTROL SCHEME FOR REDUCING VEHICLES ' CO 2 EMISSIONS
This paper presents a vehicle’s CO 2 emission reduction scheme by an ETC-assisted real-time traffic light control scheme in vehicular networks. Using Electronic Toll Collection (ETC) devices, real-time road conditions can be obtained by wireless communication between the ETC devices and the traffic lights. A decision tree classification algorithm is used to assign the changing policy for the traffic lights, and then the optimal average waiting time can be calculated. Less waiting time will result in less fuel consumption and fewer CO 2 emissions. Compared with the most widely used fixed time control, the ETC-assisted realtime traffic light control scheme has much better performances in reducing the average waiting time, improving non-stop passing rate, and reducing CO 2 emission.
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