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Bearing Fault Vibration Signal Denoising Based on Adaptive Denoising Autoencoder

Haifei Lu, Kedong Zhou, Lei He

2024Electronics15 citationsDOIOpen Access PDF

Abstract

Vibration signal analysis is regarded as a fundamental approach in diagnosing faults in rolling bearings, and recent advancements have shown notable progress in this domain. However, the presence of substantial background noise often results in the masking of these fault signals, posing a significant challenge for researchers. In response, an adaptive denoising autoencoder (ADAE) approach is proposed in this paper. The data representations are learned by the encoder through convolutional layers, while the data reconstruction is performed by the decoder using deconvolutional layers. Both the encoder and decoder incorporate adaptive shrinkage units to simulate denoising functions, effectively removing interfering information while preserving sensitive fault features. Additionally, dropout regularization is applied to sparsify the network and prevent overfitting, thereby enhancing the overall expressive power of the model. To further enhance ADAE’s noise resistance, shortcut connections are added. Evaluation using publicly available datasets under scenarios with known and unknown noise demonstrates that ADAE effectively enhances the signal-to-noise ratio in strongly noisy backgrounds, facilitating accurate diagnosis of faults in rolling bearings.

Topics & Concepts

Noise reductionBearing (navigation)VibrationSIGNAL (programming language)Fault (geology)Computer scienceAutoencoderArtificial intelligencePattern recognition (psychology)AcousticsArtificial neural networkPhysicsGeologyProgramming languageSeismologyIndustrial Technology and Control SystemsEngineering Diagnostics and ReliabilityMachine Fault Diagnosis Techniques
Bearing Fault Vibration Signal Denoising Based on Adaptive Denoising Autoencoder | Litcius