基于只看一次框架和图像分割的两阶段方法用于混凝土结构的裂缝检测

Mayank Mishra, Vipul Jain, Saurabh Kumar Singh, Damodar Maity
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引用次数: 3

摘要

检测裂缝的存在和确定其严重程度是确定混凝土建筑结构健康的关键任务。在本研究中,我们开发了一种基于You Only Look Once (YOLOv5)深度学习框架的两阶段自动化方法,用于混凝土结构裂缝的识别、定位和量化。在第一阶段,使用边界框识别和定位裂缝,而在第二阶段,确定裂缝的长度,从而确定损伤的严重程度。所开发的深度学习模型使用来自中东技术大学(METU)各个校园建筑的开源数据集中收集的总计40000张大小为227 × 227像素的图像中的4500张带注释的图像进行训练。采用迁移学习的概念(即预训练权值)进行训练,大大缩短了训练时间。该模型的检测和定位精度以平均精度、平均召回率和f1分数来衡量。YOLOv5模型的平均精度(mAP_0.5)达到95.02%。还开发了ResNet模型,以获取YOLOv5模型的霸主地位。所提出的方法可以通过实时监测来识别需要紧急修复的结构异常,从而可以用于高质量的民用基础设施监测系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Two-stage method based on the you only look once framework and image segmentation for crack detection in concrete structures

Detecting the presence of cracks and identifying their severity are crucial tasks for determining the structural health of a concrete building. In this study, we develop a two-stage automated method based on the You Only Look Once (YOLOv5) deep learning framework for the identification, localization, and quantification of cracks in the concrete structures. In the first stage, cracks are identified and localized using bounding boxes, while in the second stage, the length of cracks and, therefore, the damage severity are determined. The developed deep learning model is trained using 4500 annotated images from a total of 40000 images of size 227 × 227 pixel, which are obtained from an open-source dataset collected at various campus buildings of Middle East Technical University (METU). The concept of transfer learning (i.e., pre-trained weights) is used for the training, which drastically reduces the training time. The detection and localization accuracy of this model is measured in terms of the average precision, average recall, and F1-score. The YOLOv5 model achieves the mean average precision (mAP_0.5) of 95.02%. A ResNet model is also developed just to capture the supremacy of the YOLOv5 model. The proposed method can help in identifying structural anomalies through real-time monitoring that must be urgently repaired and thus can be used in high-quality civil infrastructure monitoring systems.

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