arXiv:2305.02695 Abstract | arXiv Analytics

arXiv:2305.02695 [cs.CV]Abstract References Reviews Resources

In-situ Anomaly Detection in Additive Manufacturing with Graph Neural Networks

Published 2023-05-04Version 1

Transforming a design into a high-quality product is a challenge in metal additive manufacturing due to rare events which can cause defects to form. Detecting these events in-situ could, however, reduce inspection costs, enable corrective action, and is the first step towards a future of tailored material properties. In this study a model is trained on laser input information to predict nominal laser melting conditions. An anomaly score is then calculated by taking the difference between the predictions and new observations. The model is evaluated on a dataset with known defects achieving an F1 score of 0.821. This study shows that anomaly detection methods are an important tool in developing robust defect detection methods.

Comments: 5 pages, 3 figures, published in ICLR 2023 workshop on machine learning for materials (ML4Materials)

Categories: cs.CV, cs.LG, eess.IV

Keywords: graph neural networks, in-situ anomaly detection, nominal laser melting conditions, additive manufacturing, developing robust defect detection methods

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