Enhancement of detectability of noisy signals by stochastic resonance in arrays

Zonghua Liu; Ying-Cheng Lai; Arje Nachman

doi:10.1142/S021812740401028X

Enhancement of detectability of noisy signals by stochastic resonance in arrays

Zonghua Liu, Ying-Cheng Lai, Arje Nachman

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

We propose a scheme to detect signals immersed in strong, externally imposed, undesirable noise (jamming) by making use of the principle of stochastic resonance. The strategy is to construct an array of simple nonlinear oscillators and to apply independent, modulating noise to each oscillator. We show that the collective effect of all oscillators and the interplay between nonlinearity and different noise sources can enhance the detectability of the original signal. For proof of principle we focus on periodic signals mixed with in-band, Gaussian jamming. In particular, we show by both extensive numerical computations and physical arguments that measures of the detectability such as the signal-to-noise ratio can be increased in our scheme. We suggest how the scheme can be implemented in laboratory experiments.

Original language	English (US)
Pages (from-to)	1655-1670
Number of pages	16
Journal	International Journal of Bifurcation and Chaos in Applied Sciences and Engineering
Volume	14
Issue number	5
DOIs	https://doi.org/10.1142/S021812740401028X
State	Published - May 2004

Keywords

Noise reduction
Nonlinear oscillators
Stochastic resonance

ASJC Scopus subject areas

Modeling and Simulation
Engineering (miscellaneous)
General
Applied Mathematics

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10.1142/S021812740401028X

Cite this

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title = "Enhancement of detectability of noisy signals by stochastic resonance in arrays",

abstract = "We propose a scheme to detect signals immersed in strong, externally imposed, undesirable noise (jamming) by making use of the principle of stochastic resonance. The strategy is to construct an array of simple nonlinear oscillators and to apply independent, modulating noise to each oscillator. We show that the collective effect of all oscillators and the interplay between nonlinearity and different noise sources can enhance the detectability of the original signal. For proof of principle we focus on periodic signals mixed with in-band, Gaussian jamming. In particular, we show by both extensive numerical computations and physical arguments that measures of the detectability such as the signal-to-noise ratio can be increased in our scheme. We suggest how the scheme can be implemented in laboratory experiments.",

keywords = "Noise reduction, Nonlinear oscillators, Stochastic resonance",

author = "Zonghua Liu and Ying-Cheng Lai and Arje Nachman",

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T1 - Enhancement of detectability of noisy signals by stochastic resonance in arrays

AU - Liu, Zonghua

AU - Lai, Ying-Cheng

AU - Nachman, Arje

N1 - Funding Information: This work was sponsored by AFOSR under Grant No. F49620-98-1-0400.

PY - 2004/5

Y1 - 2004/5

N2 - We propose a scheme to detect signals immersed in strong, externally imposed, undesirable noise (jamming) by making use of the principle of stochastic resonance. The strategy is to construct an array of simple nonlinear oscillators and to apply independent, modulating noise to each oscillator. We show that the collective effect of all oscillators and the interplay between nonlinearity and different noise sources can enhance the detectability of the original signal. For proof of principle we focus on periodic signals mixed with in-band, Gaussian jamming. In particular, we show by both extensive numerical computations and physical arguments that measures of the detectability such as the signal-to-noise ratio can be increased in our scheme. We suggest how the scheme can be implemented in laboratory experiments.

AB - We propose a scheme to detect signals immersed in strong, externally imposed, undesirable noise (jamming) by making use of the principle of stochastic resonance. The strategy is to construct an array of simple nonlinear oscillators and to apply independent, modulating noise to each oscillator. We show that the collective effect of all oscillators and the interplay between nonlinearity and different noise sources can enhance the detectability of the original signal. For proof of principle we focus on periodic signals mixed with in-band, Gaussian jamming. In particular, we show by both extensive numerical computations and physical arguments that measures of the detectability such as the signal-to-noise ratio can be increased in our scheme. We suggest how the scheme can be implemented in laboratory experiments.

KW - Noise reduction

KW - Nonlinear oscillators

KW - Stochastic resonance

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Enhancement of detectability of noisy signals by stochastic resonance in arrays

Abstract

Keywords

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