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Detecting large-scale underwater cracks based on remote operated vehicle and graph convolutional neural network

Wenxuan Cao, Junjie Li

2022Frontiers of Structural and Civil Engineering35 citationsDOIOpen Access PDF

Abstract

Abstract It is of great significance to quickly detect underwater cracks as they can seriously threaten the safety of underwater structures. Research to date has mainly focused on the detection of above-water-level cracks and hasn’t considered the large scale cracks. In this paper, a large-scale underwater crack examination method is proposed based on image stitching and segmentation. In addition, a purpose of this paper is to design a new convolution method to segment underwater images. An improved As-Projective-As-Possible (APAP) algorithm was designed to extract and stitch keyframes from videos. The graph convolutional neural network (GCN) was used to segment the stitched image. The GCN’s m-IOU is 24.02% higher than Fully convolutional networks (FCN), proving that GCN has great potential of application in image segmentation and underwater image processing. The result shows that the improved APAP algorithm and GCN can adapt to complex underwater environments and perform well in different study areas.

Topics & Concepts

UnderwaterImage stitchingConvolutional neural networkArtificial intelligenceComputer scienceGraphSegmentationConvolution (computer science)Computer visionScale (ratio)Image (mathematics)Pattern recognition (psychology)Artificial neural networkGeologyTheoretical computer scienceOceanographyQuantum mechanicsPhysicsInfrastructure Maintenance and MonitoringNon-Destructive Testing TechniquesStructural Health Monitoring Techniques
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