Add to ORKGThe statistical properties (fluctuations) of heartbeat intervals (RR intervals) in ECG are studied and compared with the predictions of Random Matrix Theory (RMT). It is found that heartbeat intervals only locally exhibit the fluctuation patterns (universality) predicted by the RMT. This finding shows that heartbeat dynamics is of the mixed type where regular and irregular (chaotic) regimes coexist and the Berry-Robnik theory can be applied. It is also observed that the distribution of heartbeat intervals is well described by the one-parameter Brody distribution. The parameter $\beta $ of the Brody distribution is seen to be connected with the dynamical state of the heart
International audienceWe analyze the local regularity of RR traces from ECG through the computation ...
The literature indicated that the fractal analysis of heart rate variability (HRV) is related to the...
We measure the content of random uncorrelated noise in heart rate variability using a general method...
The fractal analysis of heart rate variability (HRV) has been associated to the chaos theory. We eva...
The fractal analysis of heart rate variability (HRV) has been associated to the chaos theory. We eva...
Restricted until 16 Dec. 2010.Heart dynamics and heart rate variability, as well as their characteri...
We analyzed heart beat fluctuations in terms of return times of extreme values of the RR increments....
A paradox regarding the classic power spectral analysis of heart rate variability (HRV) is whether t...
We focus on various measures of the fluctuations of the sequence of intervals between beats of the h...
A method is proposed to analyze the heartbeat waveform that can yield a reliable characterization of...
We explore the degree to which concepts developed in statistical physics can be usefully applied to ...
International audienceWe analyze the local regularity of RR traces from ECG through the computation ...
A paradox regarding the classic power spectral analysis of heart rate variability (HRV) is whether t...
The complexity of the cardiac rhythm is demonstrated to exhibit self-affine multifractal variability...
The Detrended Fluctuation Analysis (DFA) is widely employed to quantify the fractal dynamics of R-R ...
International audienceWe analyze the local regularity of RR traces from ECG through the computation ...
The literature indicated that the fractal analysis of heart rate variability (HRV) is related to the...
We measure the content of random uncorrelated noise in heart rate variability using a general method...
The fractal analysis of heart rate variability (HRV) has been associated to the chaos theory. We eva...
The fractal analysis of heart rate variability (HRV) has been associated to the chaos theory. We eva...
Restricted until 16 Dec. 2010.Heart dynamics and heart rate variability, as well as their characteri...
We analyzed heart beat fluctuations in terms of return times of extreme values of the RR increments....
A paradox regarding the classic power spectral analysis of heart rate variability (HRV) is whether t...
We focus on various measures of the fluctuations of the sequence of intervals between beats of the h...
A method is proposed to analyze the heartbeat waveform that can yield a reliable characterization of...
We explore the degree to which concepts developed in statistical physics can be usefully applied to ...
International audienceWe analyze the local regularity of RR traces from ECG through the computation ...
A paradox regarding the classic power spectral analysis of heart rate variability (HRV) is whether t...
The complexity of the cardiac rhythm is demonstrated to exhibit self-affine multifractal variability...
The Detrended Fluctuation Analysis (DFA) is widely employed to quantify the fractal dynamics of R-R ...
International audienceWe analyze the local regularity of RR traces from ECG through the computation ...
The literature indicated that the fractal analysis of heart rate variability (HRV) is related to the...
We measure the content of random uncorrelated noise in heart rate variability using a general method...