Pavement distress detection and classification based on YOLO network

水准点(测量) 自动化 最小边界框 特征(语言学) 跳跃式监视 目标检测 特征提取 苦恼 深度学习 计算机科学 模式识别(心理学) 人工智能 数据挖掘 图像(数学) 工程类 机械工程 生态学 语言学 哲学 大地测量学 生物 地理
作者
Yuchuan Du,Ning Pan,Zihao Xu,Fuwen Deng,Yu Shen,Kang Hua
出处
期刊:International Journal of Pavement Engineering [Taylor & Francis]
卷期号:22 (13): 1659-1672 被引量:305
标识
DOI:10.1080/10298436.2020.1714047
摘要

The detection and classification of pavement distress (PD) play a critical role in pavement maintenance and rehabilitation. Research on PD automation detection and measurement has been actively conducted. However, types of PD are more necessary for road managers to take effective actions. Also, lack of a unified PD dataset leads to absence of a benchmark on various methods. This study makes three contributions to address these issues. Firstly, a large-scale PD dataset is prepared. This dataset is composed of 45,788 images captured with a high-resolution industrial camera installed on vehicles, in a variety of weather and illuminance conditions. Each image is annotated with bounding box representing location and type of distress. Secondly, a deep learning-based object detection framework, the YOLO network, is adopted to predict possible distress location and category. Comprehensive detection accuracy reaches 73.64%. The processing speed reaches 0.0347s/pic, as 9 times faster than Faster R-CNN and only 70% of SSD. Finally, the applicability of model under various illumination conditions is also explored. The results reveal that the method significantly outperforms with appropriate illumination. We conclude that the proposed YOLO-based approach is able to detect PD with high accuracy, which requires no manual feature extraction and calculation during detecting.

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