Vision-Based Efficient Collision Avoidance Model Using Distance Measurement

A. Saif, Z. R. Mahayuddin, H. Arshad
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引用次数: 3

Abstract

The Fourth industrial revolution (IR 4.0) saw the emergence of computer vision and artificial intelligence in creating smart imaging systems that can replace human vision and decision making especially to predict models for autonomous vehicles. In this context, advanced prediction of probable collision in real time scenario is an unsolved problem especially in the use of artificial intelligence and computer vision for autonomous vehicles. This research proposed an efficient collision avoidance model to avoid collision in real time scenario. Proposed model differs from other methods in a way that it does not require any other equipment like sensors for measuring distance between the vehicles. Proposed collision avoidance model estimates the relation between distance and size of the vehicle in real time scenario to generate an approximate notion of distance between the vehicles. Then, the ratio of distance between vehicles and size of the vehicle was used to depict vehicles that are in potentially dangerous positions for probable collision. Proposed collision avoidance model was experimented in the real-time traffic and experimental results showed that the model could detect vehicles in order to avoid the probable collisions efficiently. Proposed model is expected to be a possible tool in dealing with future demand of autonomous vehicles with the increase of 4IR technologies.
基于视觉的距离测量高效避碰模型
第四次工业革命(IR 4.0)见证了计算机视觉和人工智能在创建智能成像系统方面的出现,这些系统可以取代人类的视觉和决策,特别是在预测自动驾驶汽车模型方面。在此背景下,实时场景下碰撞可能性的高级预测是一个尚未解决的问题,特别是在自动驾驶汽车中使用人工智能和计算机视觉。本研究提出了一种有效的避碰模型,以避免实时场景下的碰撞。该模型与其他方法的不同之处在于,它不需要任何其他设备,如传感器来测量车辆之间的距离。提出的避碰模型估计实时场景中车辆的距离和尺寸之间的关系,从而产生车辆之间距离的近似概念。然后,利用车辆之间的距离与车辆大小的比率来描绘可能发生碰撞的潜在危险位置的车辆。在实时交通中对所提出的避碰模型进行了实验,实验结果表明,该模型能够有效地检测车辆,避免可能发生的碰撞。随着第四次工业革命技术的发展,该模型有望成为应对未来自动驾驶汽车需求的可能工具。
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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