Damage detection and localization of bridge deck pavement based on deep learning
Bridge deck pavement damage has a significant effect on the driving safety and long-term durability of bridges. To achieve the damage detection and localization of bridge deck pavement, a three-stage detection method based on the you-only-look-once version 7 (YOLOv7) network and the revised LaneNet...
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sg-ntu-dr.10356-1694702023-07-21T15:33:33Z Damage detection and localization of bridge deck pavement based on deep learning Ni, Youhao Mao, Jianxiao Fu, Yuguang Wang, Hao Zong, Hai Luo, Kun School of Civil and Environmental Engineering Engineering::Civil engineering Bridge Deck Pavement Damage Detection Bridge deck pavement damage has a significant effect on the driving safety and long-term durability of bridges. To achieve the damage detection and localization of bridge deck pavement, a three-stage detection method based on the you-only-look-once version 7 (YOLOv7) network and the revised LaneNet was proposed in this study. In stage 1, the Road Damage Dataset 202 (RDD2022) is preprocessed and adopted to train the YOLOv7 model, and five classes of damage were obtained. In stage 2, the LaneNet network was pruned to retain the semantic segmentation part, with the VGG16 network as an encoder to generate lane line binary images. In stage 3, the lane line binary images were post-processed by a proposed image processing algorithm to obtain the lane area. Based on the damage coordinates from stage 1, the final pavement damage classes and lane localization were obtained. The proposed method was compared and analyzed in the RDD2022 dataset, and was applied on the Fourth Nanjing Yangtze River Bridge in China. The results shows that the mean average precision (mAP) of YOLOv7 on the preprocessed RDD2022 dataset reaches 0.663, higher than that of other models in the YOLO series. The accuracy of the lane localization of the revised LaneNet is 0.933, higher than that of instance segmentation, 0.856. Meanwhile, the inference speed of the revised LaneNet is 12.3 frames per second (FPS) on NVIDIA GeForce RTX 3090, higher than that of instance segmentation 6.53 FPS. The proposed method can provide a reference for the maintenance of bridge deck pavement. Published version This research was funded by the National Natural Science Foundation of China (grant number: 51978155), the Postgraduate Research & Practice Innovation Program of Jiangsu Province (grant number: SJCX21_0056), and the Open Foundation of National Engineering Laboratory for High Speed Railway Construction (grant number: HSR202003). 2023-07-19T07:42:33Z 2023-07-19T07:42:33Z 2023 Journal Article Ni, Y., Mao, J., Fu, Y., Wang, H., Zong, H. & Luo, K. (2023). Damage detection and localization of bridge deck pavement based on deep learning. Sensors, 23(11), 5138-. https://dx.doi.org/10.3390/s23115138 1424-8220 https://hdl.handle.net/10356/169470 10.3390/s23115138 37299865 2-s2.0-85161518940 11 23 5138 en Sensors © 2023 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Engineering::Civil engineering Bridge Deck Pavement Damage Detection Ni, Youhao Mao, Jianxiao Fu, Yuguang Wang, Hao Zong, Hai Luo, Kun Damage detection and localization of bridge deck pavement based on deep learning |
| description |
Bridge deck pavement damage has a significant effect on the driving safety and long-term durability of bridges. To achieve the damage detection and localization of bridge deck pavement, a three-stage detection method based on the you-only-look-once version 7 (YOLOv7) network and the revised LaneNet was proposed in this study. In stage 1, the Road Damage Dataset 202 (RDD2022) is preprocessed and adopted to train the YOLOv7 model, and five classes of damage were obtained. In stage 2, the LaneNet network was pruned to retain the semantic segmentation part, with the VGG16 network as an encoder to generate lane line binary images. In stage 3, the lane line binary images were post-processed by a proposed image processing algorithm to obtain the lane area. Based on the damage coordinates from stage 1, the final pavement damage classes and lane localization were obtained. The proposed method was compared and analyzed in the RDD2022 dataset, and was applied on the Fourth Nanjing Yangtze River Bridge in China. The results shows that the mean average precision (mAP) of YOLOv7 on the preprocessed RDD2022 dataset reaches 0.663, higher than that of other models in the YOLO series. The accuracy of the lane localization of the revised LaneNet is 0.933, higher than that of instance segmentation, 0.856. Meanwhile, the inference speed of the revised LaneNet is 12.3 frames per second (FPS) on NVIDIA GeForce RTX 3090, higher than that of instance segmentation 6.53 FPS. The proposed method can provide a reference for the maintenance of bridge deck pavement. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Ni, Youhao Mao, Jianxiao Fu, Yuguang Wang, Hao Zong, Hai Luo, Kun |
| format |
Article |
| author |
Ni, Youhao Mao, Jianxiao Fu, Yuguang Wang, Hao Zong, Hai Luo, Kun |
| author_sort |
Ni, Youhao |
| title |
Damage detection and localization of bridge deck pavement based on deep learning |
| title_short |
Damage detection and localization of bridge deck pavement based on deep learning |
| title_full |
Damage detection and localization of bridge deck pavement based on deep learning |
| title_fullStr |
Damage detection and localization of bridge deck pavement based on deep learning |
| title_full_unstemmed |
Damage detection and localization of bridge deck pavement based on deep learning |
| title_sort |
damage detection and localization of bridge deck pavement based on deep learning |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169470 |
| _version_ |
1773551388592177152 |