An IoT Enabled Traffic Light Controllers Synchronization Method for Road Traffic Congestion Mitigation

2019 IEEE International Smart Cities Conference (ISC2) Pub Date : 2019-10-01 DOI:10.1109/ISC246665.2019.9071667

Dex R. Aleko, S. Djahel

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引用次数: 9

Abstract

Road traffic congestion is among the most challenging issues of the 21st century due to its devastating impact on the environment, the economy and the population health. To support the ongoing efforts in efficiently dealing with this issue we leverage the Internet of Things (IoT) sensing capabilities and develop an original synchronisation method to efficiently adapt traffic light phases in a way that significantly reduce urban road traffic congestion. We particularly focus on reducing congestion in city centres during afternoon peak hours where most drivers travel using arterial roads to exit the city centre to reach their homes. We achieved this by designing a novel Traffic Lights Controller (TLC) synchronization system that allows vehicles leaving the city centre to travel a long distance without stopping (i.e., minimizing the number of occurrence of ’stop and go’ phenomenon). The performance evaluation results of our method using the microscopic road traffic simulator SUMO reveal that it achieves a reduction of up to 39% in the average travel time compared to non-synchronized fixed time TLCs.

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基于物联网的交通信号灯控制器同步方法缓解道路交通拥堵

道路交通拥堵是21世纪最具挑战性的问题之一，因为它对环境、经济和人口健康具有破坏性影响。为了支持有效处理这一问题的持续努力，我们利用物联网(IoT)传感能力，开发了一种原始的同步方法，以有效地适应红绿灯阶段，从而显著减少城市道路交通拥堵。我们特别注重在下午高峰时段减少市中心的拥堵，因为大多数司机都要走主干道离开市中心回家。我们通过设计一种新颖的交通灯控制器(TLC)同步系统来实现这一目标，该系统允许离开市中心的车辆在不停车的情况下行驶很长一段距离(即最大限度地减少“走走停停”现象的发生次数)。使用微观道路交通模拟器SUMO的性能评估结果表明，与非同步固定时间TLCs相比，该方法的平均旅行时间减少了39%。

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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2019 IEEE International Smart Cities Conference (ISC2)

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