Application of Convolutional Neural Network for Fault Diagnosis of Bearing Scratch of an Induction Motor

Application of Convolutional Neural Network for Fault Diagnosis of Bearing Scratch of an Induction Motor

The demand for the condition monitoring of induction motors is increasing in various fields, such as industry, transportation, and daily life. Bearing faults are the most common faults, and many fault diagnosis methods have been proposed using artificial pitting as the fault factor in most cases. Ho...

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Veröffentlicht in:Applied sciences 2022-06, Vol.12 (11), p.5513
Hauptverfasser: Esaki Muthu Pandara Kone, Shrinathan, Yatsugi, Kenichi, Mizuno, Yukio, Nakamura, Hisahide
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
bearing damage
Bearing races
diagnosis
Discriminant analysis
Failure
Fault diagnosis
Faults
induction motor
Induction motors
Machine learning
Methods
multiple faults
Neural networks
Optimization
scratch
Signal processing
spectral analysis
Statistical analysis
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Beschreibung
Zusammenfassung:The demand for the condition monitoring of induction motors is increasing in various fields, such as industry, transportation, and daily life. Bearing faults are the most common faults, and many fault diagnosis methods have been proposed using artificial pitting as the fault factor in most cases. However, the validity of a fault diagnosis method for other kinds of faults does not seem to be evaluated. Considering onsite scenarios and other possibilities of faults, this paper introduces scratches on the outer raceways of bearings. A study was performed on the detection of several kinds of bearing scratches using a proposed method that was based on an auto-tuning convolutional neural network. The developed approach was also compared with other diagnostic methods for validation. The results showed that the proposed technique provides the possibility of diagnosing several kinds of scratches with acceptable accuracy rates.
ISSN:2076-3417
2076-3417
DOI:10.3390/app12115513