基于改进YOLOv5s的锥斗检测算法研究

IF 2.6 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC World Electric Vehicle Journal Pub Date : 2023-09-27 DOI:10.3390/wevj14100269

Jiyue Zhuo, Gang Li, Yang He

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引用次数: 0

摘要

针对在Formula Student Autonomous China中存在的检测精度低、小目标检测能力弱、颜色区分不够明显、无法准确定位目标物体实际位置等问题，对YOLOv5s算法进行了改进，增加了坐标关注，修改了色彩空间变换模块，添加归一化高斯瓦瑟斯坦距离模块和单目相机距离测量模块。最后，通过实验验证，通过增加和修改上述模块，YOLOv5s算法的精度提高了6.9%，召回率提高了4.4%，平均精度提高了4.9%;虽然检测帧率有所降低，但仍能满足要求。单目摄像机距离测量在z方向20 m内的最大误差为5.64%，在x方向20 m内的最大误差为5.33%。

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Research on Cone Bucket Detection Algorithm Based on Improved YOLOv5s

In order to address the problems associated with low detection accuracy, weak detection ability of small targets, insufficiently obvious differentiation of colors, and inability to accurately locate the actual position of the target object in the Formula Student Autonomous China, the YOLOv5s algorithm is improved by adding coordinate attention, modifying the color space transformation module, and adding a normalized Gaussian Wasserstein distance module and a monocular camera distance measurement module. Finally, it is experimentally verified that by adding and modifying the above modules, the YOLOv5s algorithm’s precision is improved by 6.9%, recall by 4.4%, and mean average precision by 4.9%; although the detection frame rate decreases, it still meets the requirement. Monocular camera distance measurement has a maximum error of 5.64% within 20 m in the Z-direction and 5.33% in the X-direction.

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