Weak signal detection of composite multistable stochastic resonance with Woods–Saxon potential
Author:
Gao Rui12, Jiao Shangbin1, Wang Yi3, Li Yujun1
Affiliation:
1. Shaanxi Key Laboratory of Complex System Control and Intelligent Information Processing , Xi’an University of Technology , Xi’an 710048 , China 2. School of Electronic and Electrical Engineering , Baoji University of Arts and Sciences , Baoji 721016 , China 3. Department of Aeronautical Engineering of Shaanxi Polytechnic Institute , Xianyang 712000 , China
Abstract
Abstract
Weak signal detection under strong noise is a common problem in many engineering fields. The research on the detection theory and method of stochastic resonance (SR) has very important theoretical significance and application value for the realization of early weak fault diagnosis. In order to further enhance the weak signal processing capability of SR, an improved novel composite multistable potential well model is proposed by combining the tristable model and the Woods–Saxon model. The switching mechanism of the novel model constructed with the fusion of the tristable model and the Woods–Saxon model between different steady states is studied, the output response performance of SR system with the novel composite multistable model is analyzed. The adaptive synchronization optimization method of multiple system parameters adopts the differential brainstorming algorithm to realize the adaptive selection of multiple parameters. Simulation experiments are carried out on single and multiple low-frequency periodic signals and single and multiple high-frequency periodic signals under the Gaussian noise environment, simulation results indicate that the novel composite multistable SR system performs better. On the basis of this model, the composite multistable SR system is applied to the fault detection of rolling bearings, which has a good detection effect.
Funder
Open project of Shaanxi Key Laboratory of Complex System Control and Intelligent Information Processing National Natural Science Foundation of China Collaborative Innovation Center project of Shaanxi Provincial Department of Education
Publisher
Walter de Gruyter GmbH
Subject
Physical and Theoretical Chemistry,General Physics and Astronomy,Mathematical Physics
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