| Title |
A deep learning-based approach for automatic detection of concrete cracks below the waterline / |
| Authors |
Orinaitė, Ugnė ; Palevičius, Paulius ; Pal, Mayur ; Ragulskis, Minvydas |
| DOI |
10.21595/vp.2022.22845 |
| Full Text |
|
| Is Part of |
Vibroengineering procedia: 58th international conference on vibroengineering, Ventspils, Latvia, August 25-26, 2022.. Kaunas : JVE international. 2022, vol. 44, p. 142-148.. ISSN 2345-0533. eISSN 2538-8479 |
| Keywords [eng] |
optical water effects ; underwater concrete crack ; convolutional neural networks |
| Abstract [eng] |
Convolutional neural networks have been created as deep learning-based approaches to automatically analyze photographs of concrete surfaces for crack diagnosis applications. Although deep learning-based systems assert to have extremely high accuracy, they frequently overlook how difficult it is to acquire images. Complex lighting situations, shadows, the irrationality of crack forms and widths, imperfections, and concrete spall frequently have an influence on real-world photos. The focus of the published research and accessible shadow databases is on photographs shot in controlled laboratory settings. In this research, we investigate the challenging underwater optical effects settings and the complexity of image classification for concrete crack detection. This research elaborates on difficulties encountered when using deep learning-based techniques to identify concrete cracks when optical effects are present. To improve the precision of automatically detecting concrete cracks on underwater surfaces, new optical effect augmentation techniques have been developed. |
| Published |
Kaunas : JVE international |
| Type |
Conference paper |
| Language |
English |
| Publication date |
2022 |
| CC license |
|
