prediction methods. This paper tackles the in-line machining process monitoring by exploiting big data in the shape of multi-stream complex signals, eventually containing degradation and tool wear signatures. The proposed novel solution is fed by real-time multichannel data to identify anomalous states in machining applications. We , investigateing the effectiveness of a category of ANNs specifically conceived to predict process patterns based on time series of sensor signals, i.e., the Gated-Recurrent-Unit- Network. A real case study shows the efficiency of the proposed solution in predicting wild, complex and drifting patterns, typical of a series production, highlighting its provided benefits for in-line big data mining in real industrial applications.

Multi-stream big data mining for industry 4.0 in machining: novel application of a Gated Recurrent Unit Network

Federica Garghetti;Marco Grasso;Massimo Pacella;Bianca Maria Colosimo
2023-01-01

Abstract

prediction methods. This paper tackles the in-line machining process monitoring by exploiting big data in the shape of multi-stream complex signals, eventually containing degradation and tool wear signatures. The proposed novel solution is fed by real-time multichannel data to identify anomalous states in machining applications. We , investigateing the effectiveness of a category of ANNs specifically conceived to predict process patterns based on time series of sensor signals, i.e., the Gated-Recurrent-Unit- Network. A real case study shows the efficiency of the proposed solution in predicting wild, complex and drifting patterns, typical of a series production, highlighting its provided benefits for in-line big data mining in real industrial applications.
2023
Proceedings of the 16th CIRP Conference on Intelligent Computation in Manufacturing Engineering
Industry 4.0, Multichannel signals, Recurrent Neural Network;
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/1233325
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