Intelligent Fault Severity Detection of Rotating Machines Based on VMD-WVD and Parameter-Optimized DBN

Abstract: An intelligent fault severity detection method based on variational mode decomposition- (VMD-) Wigner-Ville distribution (WVD) and sparrow search algorithm- (SSA-) optimized deep belief network (DBN) is suggested to address the problem that typical fault diagnostic algorithms are inappropriate for extremely comparable vibration signals when the samples are insufficient. VMD is used to process the original vibration signal to obtain the band intrinsic mode functions (BIMFs) with different frequencies. WVD produ… Show more

“…The results demonstrate that the recognition rate of the SSA-DBN model surpassed that of other classifiers, with a recognition accuracy approximately 2% higher than that of the unoptimized DBN model. SSA-DBN, VMD and Wigner-Ville distribution (WVD) [30] were used for intelligent fault severity detection. The model achieved an accuracy rate of 98%, indicating its effectiveness in fault detection.…”

Optimization of Deep Belief Network Based on Sparrow Search Algorithm for Rolling Bearing Fault Diagnosis

“…The results demonstrate that the recognition rate of the SSA-DBN model surpassed that of other classifiers, with a recognition accuracy approximately 2% higher than that of the unoptimized DBN model. SSA-DBN, VMD and Wigner-Ville distribution (WVD) [30] were used for intelligent fault severity detection. The model achieved an accuracy rate of 98%, indicating its effectiveness in fault detection.…”

Optimization of Deep Belief Network Based on Sparrow Search Algorithm for Rolling Bearing Fault Diagnosis

A new health indicator extracted by unsupervised learning using autoencoder in tandem with t-sne and multi-kernel CNN to enhance the early detection and classification of bearings multi-faults

Dynamic mode decomposition-based technique for cross-term suppression in the Wigner-Ville distribution