AI-based YOLO V4 Intelligent Traffic Light Control System

Q4 Engineering

Journal of Automation, Mobile Robotics and Intelligent Systems Pub Date : 2023-10-02 DOI:10.14313/jamris/4-2022/33

Prathap Rudra Boppuru, Pradeep Kumar Kukatlapalli, Cherukuri Ravindranath Chowdary, Javid Hussain

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引用次数: 0

Abstract

With the growing number of city vehicles, traffic management is becoming one of the most persistent challenges. Traffic bottlenecks cause more significant disturbances in our everyday lives and raise stress levels, negatively impacting the environment by increasing carbon emissions. Due to the population increase, megacities are experiencing severe challenges and significant delays in their day-to-day activities related to transportation. An intelligent traffic management system is required to assess traffic density regularly and take appropriate action. Even though separate lanes are available for various vehicle types, the effective result of wait times for the Commuters at the traffic signal point is not reduced. The proposed methodology employs Artificial Intelligence to collect live images from signals to address this issue in the current system. This approach calculates traffic density, utilizing the image processing technique YOLOv4 for effective traffic congestion management. The YOLOv4 algorithm produces better accuracy in the detection of multiple vehicles. Intelligent monitoring technology uses a signal-switching algorithm at signal intersections to coordinate time distribution and alleviate traffic congestion, resulting in lower vehicle waiting times.

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基于人工智能的YOLO V4智能交通灯控制系统

随着城市车辆数量的不断增加，交通管理正成为最持久的挑战之一。交通瓶颈给我们的日常生活带来了更大的干扰，增加了压力水平，增加了碳排放，对环境产生了负面影响。由于人口的增加，特大城市正面临着与交通相关的严峻挑战和日常活动的严重延误。需要一个智能交通管理系统，定期评估交通密度，并采取适当的行动。即使有不同类型的车辆可以使用单独的车道，但通勤者在交通信号点等待时间的有效结果并没有减少。提出的方法采用人工智能从信号中收集实时图像，以解决当前系统中的这一问题。该方法计算交通密度，利用图像处理技术YOLOv4进行有效的交通拥堵管理。YOLOv4算法在多车检测中具有更好的准确性。智能监控技术利用信号交叉口的信号切换算法，协调时间分配，缓解交通拥堵，降低车辆等待时间。

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

Journal of Automation, Mobile Robotics and Intelligent Systems Engineering-Control and Systems Engineering

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Fundamentals of automation and robotics Applied automatics Mobile robots control Distributed systems Navigation Mechatronics systems in robotics Sensors and actuators Data transmission Biomechatronics Mobile computing