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A generalized convolutional neural network model trained on simulated data for fault diagnosis in a wide range of bearing designs

A generalized convolutional neural network model trained on simulated data for fault diagnosis in a wide range of bearing designs
A generalized convolutional neural network model trained on simulated data for fault diagnosis in a wide range of bearing designs
Rolling element bearings (REBs) are critical components in rotating machinery and a leading cause of machine failures. Traditional fault detection methods rely on signal processing, but advances in machine learning (ML) and deep learning (DL) have dramatically improved diagnostic accuracy. However, existing DL models struggle with data availability, generalization, and domain adaptation, making industrial applications challenging. This study proposes a convolutional neural network (CNN) model trained on numerically simulated vibration data generated for a wide range of bearing designs. A novel hybrid signal processing method is employed to enhance feature extraction and reduce domain shifts between simulated and real-world data. The optimized CNN model, trained on simulated data, is tested using experimental and real-world vibration signals from laboratory bearings and jet engine components. The results show high classification accuracy using data from the Case Western Reserve University experimental dataset and successful fault detection in real-world Safran jet engine ground tests. The findings demonstrate the effectiveness of the developed CNN-based model for bearing fault classification, tackling training data scarcity and generalizability challenges while contributing to the development of intelligent fault diagnosis models for several industrial applications.
bearing fault diagnosis, convolutional neural network (CNN), data scarcity, generalisability, simulated vibration data
1424-8220
Kiakojouri, Amirmasoud
2a451714-d4fa-4ecc-9775-e828e975c884
Wang, Ling
c50767b1-7474-4094-9b06-4fe64e9fe362
Kiakojouri, Amirmasoud
2a451714-d4fa-4ecc-9775-e828e975c884
Wang, Ling
c50767b1-7474-4094-9b06-4fe64e9fe362

Kiakojouri, Amirmasoud and Wang, Ling (2025) A generalized convolutional neural network model trained on simulated data for fault diagnosis in a wide range of bearing designs. Sensors, 25 (8). (doi:10.3390/s25082378).

Record type: Article

Abstract

Rolling element bearings (REBs) are critical components in rotating machinery and a leading cause of machine failures. Traditional fault detection methods rely on signal processing, but advances in machine learning (ML) and deep learning (DL) have dramatically improved diagnostic accuracy. However, existing DL models struggle with data availability, generalization, and domain adaptation, making industrial applications challenging. This study proposes a convolutional neural network (CNN) model trained on numerically simulated vibration data generated for a wide range of bearing designs. A novel hybrid signal processing method is employed to enhance feature extraction and reduce domain shifts between simulated and real-world data. The optimized CNN model, trained on simulated data, is tested using experimental and real-world vibration signals from laboratory bearings and jet engine components. The results show high classification accuracy using data from the Case Western Reserve University experimental dataset and successful fault detection in real-world Safran jet engine ground tests. The findings demonstrate the effectiveness of the developed CNN-based model for bearing fault classification, tackling training data scarcity and generalizability challenges while contributing to the development of intelligent fault diagnosis models for several industrial applications.

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Accepted/In Press date: 2 April 2025
Published date: 9 April 2025
Keywords: bearing fault diagnosis, convolutional neural network (CNN), data scarcity, generalisability, simulated vibration data

Identifiers

Local EPrints ID: 501542
URI: http://eprints.soton.ac.uk/id/eprint/501542
DOI: doi:10.3390/s25082378
ISSN: 1424-8220
PURE UUID: 52f9a842-6d82-4ae0-90a3-de0d77f7e24a
ORCID for Amirmasoud Kiakojouri: ORCID iD orcid.org/0000-0001-5978-1970
ORCID for Ling Wang: ORCID iD orcid.org/0000-0002-2894-6784

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Date deposited: 03 Jun 2025 16:57
Last modified: 22 Aug 2025 01:49

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Contributors

Author: Amirmasoud Kiakojouri ORCID iD
Author: Ling Wang ORCID iD

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