Litcius/Paper detail

An unsupervised end-to-end approach to fault detection in delta 3D printers using deep support vector data description

Liangwei Zhang, Jing Lin, Haidong Shao, Zhe Yang, Biyu Liu, Chuan Li

2023Journal of Manufacturing Systems15 citationsDOIOpen Access PDF

Abstract

Fault detection in 3D printers is crucial for safety and quality assurance, emphasizing proactive prediction over reactive rectification based on manufacturing factors. Presently, most detection techniques rely on shallow models with limited representational capabilities, necessitating manual feature extraction from the captured signals. This manual process is not only cumbersome and potentially costly but often requires intricate domain-specific knowledge. Additionally, these handcrafted features might not optimally distinguish between normal and faulty samples, potentially reducing prediction accuracy. In this study, we introduce an end-to-end approach using the Deep Support Vector Data Description model for fault detection in 3D printers. This design inherently facilitates automatic feature learning, where the features are synergistically optimized for fault detection. Our experiments leverage magnetic field signals for fault detection in 3D printers, using 1D convolutional layers to discern temporal signal patterns and wide kernels in the initial layer to mitigate high-frequency noise. Furthermore, our model can be easily adapted to integrate multi-channel signals for enhanced accuracy. Evaluations on real-world data from a delta 3D printer underscore the superiority of our method compared to existing alternatives.

Topics & Concepts

Fault detection and isolationComputer scienceLeverage (statistics)Anomaly detectionArtificial intelligencePattern recognition (psychology)Feature extractionProcess (computing)Field (mathematics)Data miningMathematicsActuatorPure mathematicsOperating systemAnomaly Detection Techniques and ApplicationsIndustrial Vision Systems and Defect DetectionAdvanced Neural Network Applications
An unsupervised end-to-end approach to fault detection in delta 3D printers using deep support vector data description | Litcius