We introduce a segmentation algorithm to probe temporal organization of heterogeneities in human heartbeat interval time series. We find that the lengths of segments with different local values of heart rates follow a power-law distribution. This scale-invariant structure is not a simple consequence of the long-range correlations present in the data. We also find that the differences in mean heart rates between consecutive segments display a common functional form, but with different parameters for healthy individuals and for patients with heart failure. This finding may provide information into the way heart rate variability is reduced in cardiac disease.P41RR13622 - NCRR NIH HHSFirst author draf
The fractal characteristics of heart rate variability are usually assessed by estimating short- and ...
Well-established technologies to analyze biological signals including rhythmic heartbeat are availab...
High dimension complex dynamical systems, such as those found in physiological processes, produce ti...
Studies on heart rate variability (HRV) have become popular and the possibility of diagnosis based o...
Physiological signals are commonly the result of complex interactions between systems and organs, th...
Studies on heart rate variability (HRV) have become popular and the possibility of diagnosis based o...
Detrended fluctuation analysis (DFA), suitable for the analysis of nonstationary time series, has co...
Human heart rate fluctuates in a complex and non-stationary manner. Elaborating efficient and adequa...
Heart rate variability, that is, the spontaneous fluctuations of the inverse of heart period (HP) ov...
Heart rate variability, that is, the spontaneous fluctuations of the inverse of heart period (HP) ov...
Abstract: Under healthy conditions, the normal cardiac (sinus) interbeat interval fluctuates in a c...
International audienceObjective: Numerous indices were devised for the statistical characterization ...
The recently proposed approach to detect synchronization from univariate data is applied to heart-ra...
Two diverse complexity metrics quantifying time irreversibility and local prediction, in connection ...
The local effective Holder exponent has been applied to evaluate the variability of heart rate local...
The fractal characteristics of heart rate variability are usually assessed by estimating short- and ...
Well-established technologies to analyze biological signals including rhythmic heartbeat are availab...
High dimension complex dynamical systems, such as those found in physiological processes, produce ti...
Studies on heart rate variability (HRV) have become popular and the possibility of diagnosis based o...
Physiological signals are commonly the result of complex interactions between systems and organs, th...
Studies on heart rate variability (HRV) have become popular and the possibility of diagnosis based o...
Detrended fluctuation analysis (DFA), suitable for the analysis of nonstationary time series, has co...
Human heart rate fluctuates in a complex and non-stationary manner. Elaborating efficient and adequa...
Heart rate variability, that is, the spontaneous fluctuations of the inverse of heart period (HP) ov...
Heart rate variability, that is, the spontaneous fluctuations of the inverse of heart period (HP) ov...
Abstract: Under healthy conditions, the normal cardiac (sinus) interbeat interval fluctuates in a c...
International audienceObjective: Numerous indices were devised for the statistical characterization ...
The recently proposed approach to detect synchronization from univariate data is applied to heart-ra...
Two diverse complexity metrics quantifying time irreversibility and local prediction, in connection ...
The local effective Holder exponent has been applied to evaluate the variability of heart rate local...
The fractal characteristics of heart rate variability are usually assessed by estimating short- and ...
Well-established technologies to analyze biological signals including rhythmic heartbeat are availab...
High dimension complex dynamical systems, such as those found in physiological processes, produce ti...