Spatial and Temporal Deep Learning in Air-coupled Ultrasonic Testing for Enabling NDE 4.0

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Abstract

Air-coupled ultrasonic (ACU) testing has been used for several years to detect defects in plate-like structures. Especially, for automated testing procedures, ACU testing is advantageous in comparison to conventional testing. However, the evaluation of the measurement data is usually done in a manual manner, which is an obstruction to the application of ACU testing. The goal of this study is to automate and improve defect characterization and NDE 4.0 accordingly with deep learning. In conventional ACU testing the measurement data contains temporal (A-scans) and spatial (C-scans) information. Both data types are investigated in this study. For the A-scans, which represent time series data, neural networkarchitectures tailored to such data types are applied. In addition, it is evaluated if further adaptions of the training procedure increase the performance. The C-scans are segmented by applying differentU-net similar architectures and training strategies. In order to use spatial and temporal information, a further approach is taken. The prediction of the time series models is segmented with imagemodels. To the performance of all trained models and training strategies is compared with the F1-score. As specimens, artificial defects in acrylic and carbon fiber-reinforced polymers plates are investigated.

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last seen: 2026-05-19T01:45:01.086888+00:00