Abstract
Aiming at the problems of poor decomposition quality and the extraction effect of a weak signal with strong noise by empirical mode decomposition (EMD), a novel fault diagnosis method based on cascaded adaptive second-order tristable stochastic resonance (CASTSR) and EMD is proposed in this paper. In the proposed method, low-frequency interference components are filtered by using high-pass filtering, and the restriction conditions of stochastic resonance theory are solved by using an ordinary variable-scale method. Then, a chaotic ant colony optimization algorithm with a global optimization ability is employed to adaptively adjust the parameters of the second-order tristable stochastic resonance system to obtain the optimal stochastic resonance, and noise reduction pretreatment technology based on CASTSR is developed to enhance the weak signal characteristics of low frequency. Next, the EMD is employed to decompose the denoising signal and extract the characteristic frequency from the intrinsic mode function (IMF), so as to realize the fault diagnosis of rolling bearings. Finally, the numerical simulation signal and actual bearing fault data are selected to prove the validity of the proposed method. The experiment results indicate that the proposed fault diagnosis method can enhance the decomposition quality of the EMD, effectively extract features of weak signals, and improve the accuracy of fault diagnosis. Therefore, the proposed fault diagnosis method is an effective fault diagnosis method for rotating machinery.
Highlights
As a basic part of mechanical equipment, rolling bearing is often one of the fuses of equipment failure [1–3]
The useless high-frequency noise components and useful high signal-to-noise ratio (SNR) components were decomposed by using Empirical mode decomposition (EMD), and fast Fourier transform was performed on useful components
It has been widely used in the field of fault diagnosis of rolling bearings and has shown many advantages and conveniences, but it has some disadvantages
Summary
As a basic part of mechanical equipment, rolling bearing is often one of the fuses of equipment failure [1–3]. EMD has been recognized by scholars and further studies since it was proposed [27] It has been widely used in the field of fault diagnosis of rolling bearings and has shown many advantages and conveniences, but it has some disadvantages. The interference components of low frequency are filtered by high-pass filtering, the limitation of stochastic resonance theory is solved by using an ordinary variable-scale method, and a high-frequency signal is transformed into a low-frequency signal far lower than 1 Hz. Each CASTSR output SNR is taken as the objective function, the chaotic ant colony algorithm is used to calculate the optimal parameter combination when the output SNR of each stage is maximum, and the optimal results of each stage are input into the stochastic resonance system to achieve a sufficient noise reduction of weak signals.
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