An Improved Faster R-CNN Transmission Line Bolt Defect Detection Method

2022 World Automation Congress (WAC) Pub Date : 2022-10-11 DOI:10.23919/WAC55640.2022.9934151

Zhenyu Chen, Lutao Wang, Bo Li, Siyu Chen, Jingchen Bian, Fei Zheng, Yanhong Deng

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引用次数: 1

Abstract

With the continuous development of deep learning, how to use computer vision technology to accurately locate bolts and identify defects in complex natural backgrounds has become a common problem faced by both academia and industry. Aiming at the problems of slow detection speed and high false detection rate in current bolt defect detection, an improved Faster R-CNN bolt defect detection algorithm for transmission lines is proposed. First, with Faster R-CNN as the basic framework, through the experimental comparison of three different backbone networks, ResNeSt with higher detection accuracy is selected as the backbone network. Second, the feature extraction network and feature pyramid FPN structure are improved. Then, the improved Faster R-CNN model is trained on the transmission line bolt defect dataset. Finally, the application verification is carried out with the inspection on the transmission line above 110kV of a provincial power company. The results show that the method in this paper can assist the inspectors to quickly screen and locate the defective bolts in the high-resolution UAV image, thus greatly improving the inspection efficiency. Check work efficiency.

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一种改进的R-CNN传输线螺栓缺陷快速检测方法

随着深度学习的不断发展，如何利用计算机视觉技术在复杂的自然背景下对螺栓进行精确定位和缺陷识别，已成为学术界和工业界共同面临的问题。针对目前螺栓缺陷检测中检测速度慢、误检率高的问题，提出了一种改进的传输线更快R-CNN螺栓缺陷检测算法。首先，以Faster R-CNN为基本框架，通过对三种不同骨干网的实验比较，选择检测精度较高的ResNeSt作为骨干网。其次，改进了特征提取网络和特征金字塔FPN结构。然后，在传输线螺栓缺陷数据集上训练改进的Faster R-CNN模型。最后，以某省级电力公司110kV以上输电线路为例进行应用验证。结果表明，本文方法可以帮助检测人员在高分辨率无人机图像中快速筛选和定位缺陷螺栓，从而大大提高检测效率。检查工作效率。

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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2022 World Automation Congress (WAC)

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