Xiaohui Gu scite author profile

Envelope analysis is one of the most useful methods in localized fault diagnosis of rolling element bearings. However, there is a challenge in selecting the optimal resonance band. In this paper, a novel method based on kurtogram and frequency domain correlated kurtosis is proposed. To obtain the correct relationship between the node and frequency band in wavelet packet transform, a vital process named frequency ordering is conducted to solve the frequency folding problem due to down sampling. Correlated kurtosis of envelope spectrum instead of correlated kurtosis of envelope signal or kurtosis of envelope spectrum is utilized to generate the kurtogram, in which the maximum value can indicate the optimal band for envelope analysis. Several cases of experimental bearing fault signals are used to evaluate the immunity of the proposed method to strong noise interference. The improved performance has also been compared with two previous developed methods. The results demonstrate the effectiveness and robustness of the method in fault diagnosis of rolling element bearings.

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Adaptive correlated Kurtogram and its applications in wheelset-bearing system fault diagnosis

Liu

Yang

Liu

et al. 2021

Mechanical Systems and Signal Processing

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A general multi-objective optimized wavelet filter and its applications in fault diagnosis of wheelset bearings

Yang

Liu

et al. 2020

Mechanical Systems and Signal Processing

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A novel Pareto-based Bayesian approach on extension of the infogram for extracting repetitive transients

Yang

Liu

et al. 2018

Mechanical Systems and Signal Processing

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Xiaohui Gu

A new bearing fault diagnosis method based on signal-to-image mapping and convolutional neural network

Rolling element bearing faults diagnosis based on kurtogram and frequency domain correlated kurtosis

Adaptive correlated Kurtogram and its applications in wheelset-bearing system fault diagnosis

A general multi-objective optimized wavelet filter and its applications in fault diagnosis of wheelset bearings

A novel Pareto-based Bayesian approach on extension of the infogram for extracting repetitive transients

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