A method of estimating the noise level in a chaotic time series.

Jayawardena, Amithirigala W.; Xu, Pengcheng; Li, Wai Keung

Published May 13, 2008

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A method of estimating the noise level in a chaotic time series.

1. International Centre for Water Hazard and Risk Management under the auspices of UNESCO, Public Works Research Institute, Tsukuba, Japan.
2. Academy of Mathematics and System Sciences 2 , Chinese Academy of Sciences, Beijing, China
3. Chinese Academy of Sciences
4. The University of Hong Kong 3 Department of Statistics and Actuarial Sciences, , Hong Kong, China
5. University of Hong Kong

An attempt is made in this study to estimate the noise level present in a chaotic time series. This is achieved by employing a linear least-squares method that is based on the correlation integral form obtained by Diks in 1999. The effectiveness of the method is demonstrated using five artificial chaotic time series, the Henon map, the Lorenz equation, the Duffing equation, the Rossler equation and the Chua's circuit whose dynamical characteristics are known a priori. Different levels of noise are added to the artificial chaotic time series and the estimated results indicate good performance of the proposed method. Finally, the proposed method is applied to estimate the noise level present in some real world data sets.

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Journal: Chaos (Woodbury, N.Y.)

Publisher: American Institute of Physics

ISSN: 10897682

Volume: 18

Pages: 023115-023115

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COREID 37893534 Read more

MAGID 2154271175

DOI 10.1063/1.2903757 Read more

PMID 18601482 Read more

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MeSH Terms

Algorithms Artifacts Computer Simulation Models Nonlinear Dynamics Normal Distribution Numerical Analysis Pattern Recognition Reproducibility of Results Signal Processing Systems Theory

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A method of estimating the noise level in a chaotic time series.

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