Background: Chaos and random fractal theories are among the most important for fully characterizing nonlinear dynamics of complicated multiscale biosignals. Chaos analysis requires that signals be relatively noise-free and stationary, while fractal analysis demands signals to be non-rhythmic and scale-free. Methodology/Principal Findings: To facilitate joint chaos and fractal analysis of biosignals, we present an adaptive algorithm, which: (1) can readily remove nonstationarities from the signal, (2) can more effectively reduce noise in the signals than linear filters, wavelet denoising, and chaos-based noise reduction techniques; (3) can readily decompose a multiscale biosignal into a series of intrinsically bandlimited functions; and (4) ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Abstract. Even under healthy, basal conditions, physiologic systems show erratic fluc-tuations resem...
Heart rhythms are generated by complex self-regulating systems governed by the laws of chaos. Conseq...
Chaos and random fractal theories are among the most important for fully characterizing nonlinear dy...
Background Chaos and random fractal theories are among the most important for fully characterizing n...
The book provides an insight into the advantages and limitations of the use of fractals in biomedica...
This review first gives an overview on the concept of fractal geometry with definitions and explanat...
Biosignals are physiological signals that are recorded from various parts of the body. Some of the m...
Significant contribution to understanding of complex biological systems emerged from application of ...
L'analyse de séries temporelles biomédicales chaotiques tirées de systèmes dynamiques non-linéaires ...
We explore the degree to which concepts developed in statistical physics can be usefully applied to ...
The amplitude power spectra and fractal dimensions of surrogate data designed as coloured noise were...
Nonlinear time series denoising is the prerequisite for extracting effective information from observ...
Standard methods for computing the fractal dimensions of time series are usually tested with continu...
Many real world systems consist of multiple parts and processes that nonlinearly interact with each ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Abstract. Even under healthy, basal conditions, physiologic systems show erratic fluc-tuations resem...
Heart rhythms are generated by complex self-regulating systems governed by the laws of chaos. Conseq...
Chaos and random fractal theories are among the most important for fully characterizing nonlinear dy...
Background Chaos and random fractal theories are among the most important for fully characterizing n...
The book provides an insight into the advantages and limitations of the use of fractals in biomedica...
This review first gives an overview on the concept of fractal geometry with definitions and explanat...
Biosignals are physiological signals that are recorded from various parts of the body. Some of the m...
Significant contribution to understanding of complex biological systems emerged from application of ...
L'analyse de séries temporelles biomédicales chaotiques tirées de systèmes dynamiques non-linéaires ...
We explore the degree to which concepts developed in statistical physics can be usefully applied to ...
The amplitude power spectra and fractal dimensions of surrogate data designed as coloured noise were...
Nonlinear time series denoising is the prerequisite for extracting effective information from observ...
Standard methods for computing the fractal dimensions of time series are usually tested with continu...
Many real world systems consist of multiple parts and processes that nonlinearly interact with each ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Abstract. Even under healthy, basal conditions, physiologic systems show erratic fluc-tuations resem...
Heart rhythms are generated by complex self-regulating systems governed by the laws of chaos. Conseq...