Potentials of machine learning in electric drives production using the example of contacting processes and selective magnet assembly

Machine learning (ML) is a key technology in data driven industries. In general, ML algorithms offer insight in complex processes by analyzing measured data without acquiring in-depth domain knowledge. In contrast to common physical simulations they do not require excessive computational time and ar...

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Published in	2017 7th International Electric Drives Production Conference (EDPC) pp. 1 - 8
Main Authors	Mayr, Andreas, Meyer, Alexander, Seefried, Johannes, Weigelt, Michael, Lutz, Benjamin, Sultani, Darius, Hampl, Marcel, Franke, Jorg
Format	Conference Proceeding
Language	English
Published	IEEE 01.12.2017
Subjects	Artificial neural networks Classification algorithms contacting technologies electric drives Feature extraction machine learning Machine learning algorithms magnet assembly Prediction algorithms Production Support vector machines
Online Access	Get full text
DOI	10.1109/EDPC.2017.8328166

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Abstract	Machine learning (ML) is a key technology in data driven industries. In general, ML algorithms offer insight in complex processes by analyzing measured data without acquiring in-depth domain knowledge. In contrast to common physical simulations they do not require excessive computational time and are well suited for real time analysis. This study focuses on transferring the potential of ML to the production of electric drives. Three major issues are identified: the preprocessing of the data, dealing with small data sets and the selection of an appropriate machine learning algorithm. Depending on the specific application in production, different algorithms, for example support vector machines, neural networks, random forests or boosted algorithms come into consideration. The potential of ML in electric drives production is demonstrated using two concrete applications: In the case of contacting technologies, such as thermo and ultrasonic crimping, ML algorithms for predictive maintenance, quality management and process control are considered. The second use case covers the selective magnet assembly. Here, a ML-based concept is proposed that predicts the cogging torque by analyzing magnet properties, as well as process parameters.
AbstractList	Machine learning (ML) is a key technology in data driven industries. In general, ML algorithms offer insight in complex processes by analyzing measured data without acquiring in-depth domain knowledge. In contrast to common physical simulations they do not require excessive computational time and are well suited for real time analysis. This study focuses on transferring the potential of ML to the production of electric drives. Three major issues are identified: the preprocessing of the data, dealing with small data sets and the selection of an appropriate machine learning algorithm. Depending on the specific application in production, different algorithms, for example support vector machines, neural networks, random forests or boosted algorithms come into consideration. The potential of ML in electric drives production is demonstrated using two concrete applications: In the case of contacting technologies, such as thermo and ultrasonic crimping, ML algorithms for predictive maintenance, quality management and process control are considered. The second use case covers the selective magnet assembly. Here, a ML-based concept is proposed that predicts the cogging torque by analyzing magnet properties, as well as process parameters.
Author	Franke, Jorg Mayr, Andreas Weigelt, Michael Hampl, Marcel Meyer, Alexander Sultani, Darius Seefried, Johannes Lutz, Benjamin
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SubjectTerms	Artificial neural networks Classification algorithms contacting technologies electric drives Feature extraction machine learning Machine learning algorithms magnet assembly Prediction algorithms Production Support vector machines
Title	Potentials of machine learning in electric drives production using the example of contacting processes and selective magnet assembly
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