基于改进Yolov3-tiny网络的交通场景目标检测算法

Zhenghao Wang, Linhui Li, Lei Li, Jiahao Pi, Shuoxian Li, Yafu Zhou
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引用次数: 4

摘要

基于深度学习的目标检测是车辆环境感知领域的重要应用,是近年来研究的热点。我们提出了一种新的改进的Yolov3-tiny,以实现对交通场景中物体的更精确的目标检测。采用K-means算法对交通场景中常见目标进行聚类,得到合适的锚盒大小和数量。此外,我们还修改了Yolov3-tiny的检测尺度和骨干网络结构,提高了对小目标的检测精度。为了提高边界定位的精度,还引入了立体视觉技术。实验结果表明,改进后的yolo-tiny算法在满足实时性要求的前提下,具有较高的精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Object detection algorithm based on improved Yolov3-tiny network in traffic scenes
The object detection based on deep learning is an important application in the field of vehicle environment perception, which has been a hot topic in recent years. We propose a novel improved Yolov3-tiny to implement more accurate object detection for the objects in traffic scenes. We employ K-means algorithm to cluster the common objects in traffic scenes to obtain a suitable size and numbers of anchor box. In addition, we modify modifying detection scale and the backbone network structure of Yolov3-tiny, improving the detection accuracy for small object. The stereo vision is also introduced to improve the accuracy of boundary location. Experiments results demonstrate that the improved yolo-tiny has higher accuracy than the original algorithm and it also meet the requirement of real-time performance.
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