Naslov
Automated Defect Detection from Ultrasonic Images Using Deep Learning

Autori
Medak, Duje ; Posilovic, Luka ; Subasic, Marko ; Budimir, Marko ; Loncaric, Sven

Izvornik
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control (0885-3010) 68 (2021), 10; 3126-3134

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
ultrasonic testing ; automated defect detection ; flaw detection ; ultrasonic image analysis ; deep learning

Sažetak
Non-destructive evaluation (NDE) is a set of techniques used for material inspection and defect detection without causing damage to the inspected component. One of the commonly used non- destructive techniques is called ultrasonic inspection. The acquisition of ultrasonic data was mostly automated in recent years, but the analysis of the collected data is still performed manually. This process is thus very expensive, inconsistent, and prone to human errors. An automated system would significantly increase the efficiency of analysis but the methods presented so far fail to generalize well on new cases and are not used in real-life inspection. Many of the similar data analysis problems were recently tackled by deep learning methods. This approach outperforms classical methods but requires lots of training data which is difficult to obtain in the NDE domain. In this work, we train a deep learning architecture EfficientDet to automatically detect defects from ultrasonic images. We showed how some of the hyperparameters can be tweaked in order to improve the detection of defects with extreme aspect ratios that are common in ultrasonic images. The proposed object detector was trained on the largest dataset of ultrasonic images that was so far seen in the literature. In order to collect the dataset, six steel blocks containing 68 defects were scanned with a phased array probe. More than 4000 VC-B- scans were acquired and used for training and evaluation of EfficientDet. The proposed model achieved 89.6% of mean average precision during 5-fold cross-validation which is a significant improvement compared to some similar methods that were previously used for this task. A detailed performance overview for each of the folds revealed that EfficientDet-D0 successfully detects all of the defects present in the inspected material.

Izvorni jezik
Engleski

Znanstvena područja
Računarstvo, Interdisciplinarne tehničke znanosti

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