Title :
Noise Smoothing for Nonlinear Time Series Using Wavelet Soft Threshold
Author :
Han, Min ; Liu, Yuhua ; Xi, Jianhui ; Guo, Wei
Author_Institution :
Sch. of Electron. & Inf. Eng., Dalian Univ. of Technol.
Abstract :
In this letter, a new threshold algorithm based on wavelet analysis is applied to smooth noise for a nonlinear time series. By detailing the signals decomposed onto different scales, we smooth the details by using the updated thresholds to different characters of a noisy nonlinear signal. This method is an improvement of Donoho´s wavelet methods to nonlinear signals. The approach has been successfully applied to smoothing the noisy chaotic time series generated by the Lorenz system as well as the observed annual runoff of Yellow River. For the nonlinear dynamical system, an attempt is made to analyze the noise reduced data by using multiresolution analysis, i.e., the false nearest neighbors, correlation integral, and autocorrelation function, to verify the proposed noise smoothing algorithm
Keywords :
chaos; correlation methods; signal denoising; signal resolution; smoothing methods; time series; wavelet transforms; Donoho´s wavelet analysis; Lorenz system; Yellow river; autocorrelation function; correlation integral; multiresolution analysis; noise smoothing; noisy chaotic time series; nonlinear signal; threshold algorithm; Algorithm design and analysis; Chaos; Multiresolution analysis; Noise generators; Noise reduction; Nonlinear dynamical systems; Rivers; Smoothing methods; Time series analysis; Wavelet analysis; Multiresolution analysis; noise smoothing; nonlinear time series; soft threshold;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2006.881518
