Anomalous Change Detection in Drilling Process Using Variational Autoencoder with Temperature Near Drill Edge
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- Suwa Haruhiko
- Department of Mechanical Engineering, Setsunan University
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- Oda Kazuya
- Division of Industrial Development Engineering, Graduate School of Science and Engineering, Setsunan University
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- Murakami Koji
- Yamamoto Metal Technos Co., Ltd.
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抄録
<p>The different flexibility and diversity requirements for respective manufacturing units have made modern cutting tool management much more crucial and complicated, as a greater variety of tools and more frequent tool changes are required to enhance production efficiency and avoid unplanned manufacturing downtime. Developing in-process anomalous change detection methods has been identified as an essential challenge. Machine learning techniques have been widely applied in tool condition monitoring and anomalous change detection. As anomaly data is rare in manufacturing processes, supervised machine learning approaches (such as regression and classification) are not applied to the anomalous change detection problem. Rather, self-supervised machine learning (a representative type of unsupervised machine learning) is applied. This study describes a variational autoencoder (VAE) neural network and proposes a VAE-based method for tool condition monitoring and change detection in a drilling process using the temperature near a drill edge. The proposed VAE evaluates the drill tool condition based on the reconstruction error between the input temperature and its estimate per a drill unit process through the trained network. Computational simulations demonstrate that the proposed VAE network model can avoid overfitting to the anomaly data and that its expressive power is greater than that of the conventional autoencoder model.</p>
収録刊行物
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- International Journal of Automation Technology
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International Journal of Automation Technology 17 (5), 449-457, 2023-09-05
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