2022
DOI: 10.1088/1674-1056/ac4228
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Research and application of stochastic resonance in quad-stable potential system

Abstract: To solve the problem of low weak signal enhancement performance in the quad-stable system, a new Quad-stable potential Stochastic Resonance (QSR) is proposed. Firstly, under the condition of adiabatic approximation theory, the Stationary Probability Distribution (SPD), the Mean First Passage Time (MFPT), the Work (W) and the power Spectrum Amplification Factor (SAF) are derived, and the impacts of system parameters on them are also deeply analyzed. Secondly, numerical simulations are performed to compare QSR w… Show more

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Cited by 6 publications
(4 citation statements)
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“…As mentioned earlier, the quasi-periodic potential characteristics of QPPSR break through the output saturation of classical systems, theoretically achieving superior performance. To confirm the superiority of QPPSR, a performance comparison is conducted with the widely applied classical tristable stochastic resonance system (CTSR) [34] and the empirically superior classical quad-stable stochastic resonance system (CQSR) [35]. Here, signal-to-noise ratio increase (SNRI) is chosen as the performance indicator, defined as follows:…”
Section: Performance Analysis Of the Qppsr Systemmentioning
confidence: 99%
“…As mentioned earlier, the quasi-periodic potential characteristics of QPPSR break through the output saturation of classical systems, theoretically achieving superior performance. To confirm the superiority of QPPSR, a performance comparison is conducted with the widely applied classical tristable stochastic resonance system (CTSR) [34] and the empirically superior classical quad-stable stochastic resonance system (CQSR) [35]. Here, signal-to-noise ratio increase (SNRI) is chosen as the performance indicator, defined as follows:…”
Section: Performance Analysis Of the Qppsr Systemmentioning
confidence: 99%
“…where t ( ) G is the Gaussian white noise with zero mean and intensity D, s t A ft sin 2 ( ) ( ) = p is the periodic force with amplitude A and characteristic frequency f [5,37]. In addition, V x ( ) is the fourth-stable potential function [38,39] with the following expression.…”
Section: Sr In An Underdamped Nonlinear System With a Fourth-stable P...mentioning
confidence: 99%
“…In such cases, it compromises processing power significantly, resulting in subpar image processing outcomes. In recent years, stochastic resonance theory [13][14][15] has been applied extensively in detecting weak signals. Originating from Italian scholar Benzi in 1981 [15] during research on ancient meteorological glaciers, this theory explains how noise, periodic input signals, and nonlinear systems work together to convert noise energy into useful signal energy, ultimately enhancing the signal-to-noise ratio of the output.…”
Section: Introductionmentioning
confidence: 99%