Litcius/Paper detail

Cyclogram: an effective method for selecting frequency bands for fault diagnosis of rolling element bearings

Bo Li, Xuefang Xu, Hang Tan, Peiming Shi, Zijian Qiao

2023Measurement Science and Technology18 citationsDOIOpen Access PDF

Abstract

Abstract Frequency band selection for repetitive transient extraction using the kurtogram and its variants plays a vital role in fault diagnosis of rolling element bearings. However, cyclostationarity, one of the most typical symptoms of faulty bearings, is always neglected in these methods, leading to failure of the extraction of the weak fault features. To address this shortcoming, a novel method for selecting frequency bands, called Cyclogram, is here proposed based on kurtosis and cyclostationarity. In the proposed method, a signal is decomposed into several signals in different frequency bands by a wavelet packet transform, and squared envelopes (SEs) are calculated for these decomposed signals. Then, a robust indicator of SEs for evaluating repetitive transients is constructed based on cyclic spectral coherence and kurtosis, which helps to select useful frequency bands. Afterwards, the envelope spectrum of these selected frequency bands are averaged rather than only selecting one frequency band to enhance fault features. Compared with traditional fault-diagnosis methods for rolling element bearings, the proposed method is able to identify faults from signals corrupted seriously with Gaussian and non-Gaussian noise. The effectiveness of Cyclogram is validated based on simulation and three real-world vibration signals from faulty bearings.

Topics & Concepts

Rolling-element bearingKurtosisFrequency bandComputer scienceEnvelope (radar)Radio spectrumFault (geology)VibrationGaussianNoise (video)Pattern recognition (psychology)AlgorithmAcousticsArtificial intelligenceMathematicsTelecommunicationsPhysicsStatisticsGeologySeismologyQuantum mechanicsRadarBandwidth (computing)Image (mathematics)Machine Fault Diagnosis TechniquesGear and Bearing Dynamics AnalysisAdvanced machining processes and optimization