Study on deterioration identification method of rubber bearings for bridges based on YOLOv4 deep learning algorithm

IF 0.7 Q4 CONSTRUCTION & BUILDING TECHNOLOGY
Xiao-Ni Gao, Hong-Wei Ren, Ruizhao Liu, Min Chen, Rui-Xin Lai
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引用次数: 0

Abstract

How to quickly and accurately identify the bridge rubber bearing deterioration plays an important role in ensuring the bridge structure and road safety. This paper selects the common rubber bearings of domestic bridges as the research object, and proposes an improved YOLOv4-based bridge rubber bearing deterioration detection algorithm to address the reasons for the difficulty in detecting bridge rubber bearing deterioration due to large scale variations and small sample data sets. An image dataset (named HRBD) with annotations is constructed from real inspection scenarios, and the data is expanded by image processing means such as rotation, translation and brightness transformation, so that this dataset has sufficient data complexity and solves the problem of overfitting due to insufficient samples for network training. The anchor applicable to this dataset was regained by the K-means++ clustering algorithm, and then the CA module was inserted into the YOLOv4 backbone network for more accurate anchor localization. The improved YOLOv4 network was used for migration learning to train the dataset, and finally the trained network model was used for detection on the test set. The experimental results show that the improved YOLOv4 bridge rubber bearing deterioration detection and identification network can effectively identify and locate bridge rubber bearings and their deterioration types (crack damage, shear deformation, bearing void).
基于YOLOv4深度学习算法的桥梁橡胶支座劣化识别方法研究
如何快速准确地识别桥梁橡胶支座劣化对保证桥梁结构和道路安全起着重要的作用。本文选取国内桥梁常用橡胶支座作为研究对象,针对桥梁橡胶支座劣化检测因规模变化大、样本数据集小而难以检测的原因,提出了一种改进的基于yolov4的桥梁橡胶支座劣化检测算法。基于真实检测场景构建带有标注的图像数据集(HRBD),并通过旋转、平移、亮度变换等图像处理手段对数据进行扩展,使数据集具有足够的数据复杂度,解决了网络训练样本不足导致的过拟合问题。通过k -means++聚类算法重新获得适用于该数据集的锚点,然后将CA模块插入到YOLOv4骨干网中进行更精确的锚点定位。使用改进的YOLOv4网络进行迁移学习对数据集进行训练,最后使用训练好的网络模型对测试集进行检测。实验结果表明,改进的YOLOv4桥梁橡胶支座劣化检测识别网络能够有效地识别和定位桥梁橡胶支座及其劣化类型(裂纹损伤、剪切变形、支座空洞)。
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来源期刊
Bridge Structures
Bridge Structures CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
1.10
自引率
0.00%
发文量
5
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