Surface Defect Detection and Evaluation for Marine Vessels using Multi-Stage Deep Learning

Li Yu, Kareem Metwaly, James Z. Wang, Vishal Monga
The Pennsylvania State University, USA
Abstract:

Detecting and evaluating surface coating defects is important for marine vessel maintenance. Currently, the assessment is carried out manually by qualified inspectors using international standards and their own experience. Automating the processes is highly challenging because of the high level of variation in vessel type, paint surface, coatings, lighting condition, weather condition, paint colors, areas of the vessel, and time in service. We present a novel deep learning-based pipeline to detect and evaluate the percentage of corrosion, fouling, and delamination on the vessel surface from normal photographs. We propose a multi-stage image processing framework, including ship section segmentation, defect segmentation, and defect classification, to automatically recognize different types of defects and measure the coverage percentage on the ship surface. Experimental results demonstrate that our proposed pipeline can objectively perform a similar assessment as a qualified inspector.


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Citation: Li Yu, Kareem Metwaly, James Z. Wang and Vishal Monga, ``Surface Defect Detection and Evaluation for Marine Vessels using Multi-Stage Deep Learning,'' submitted for journal review, 2021. [A version was posted in March 2022 at https://arxiv.org/abs/2203.09580.]

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Last Modified: March 21, 2022
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