The aim of this investigation was to compare and contrast the use of cross sample entropy (xSE) and cross recurrence quantification analysis (cRQA) measures for the assessment of coupling of rhythmical patterns. Measures were assessed using simulated signals with regular, chaotic, and random fluctuations in frequency, amplitude, and a combination of both. Biological data were studied as models of normal and abnormal locomotor-respiratory coupling. Nine signal types were generated for seven frequency ratios. Fifteen patients with COPD (abnormal coupling) and twenty-one healthy controls (normal coupling) walked on a treadmill at three speeds while breathing and walking were recorded. xSE and the cRQA measures of percent determinism, maximum l...
Objective: In this study, we developed a joint distribution entropy (JDistEn) method to robustly est...
Complex fluctuations within physiological signals can be used to evaluate the health of the human bo...
The study compares permutation-based and coarse-grained entropy approaches for the assessment of com...
The aim of this investigation was to compare and contrast the use of cross sample entropy (xSE) and ...
It has long been suggested that various biological rhythms exhibit some degree of synchrony, and tha...
Biological rhythms mutually attract to each other. Defined as coupling, locomotor and respiration rh...
Synchronization provides an insight into underlying the interaction mechanisms among the bivariate t...
Abstract We performed a quantitative study of coupling patterns between respiration and spontaneous ...
Regularity and synchronisation between different rhythms mainly at low (LF) and high frequency (HF) ...
<p>Increased uncoupling between heart rate and respiratory rate is shown in patients in comparison t...
A method that enables measurement of the degree of coupling between two signals is presented. The me...
This study was aimed at comparing two alternative information-theoretic approaches for the combined ...
Background: Several algorithms have been proposed to quantify synchronization. However, little is kn...
It is known that in pathological conditions, physiological systems develop changes in the multiscale...
Physiological rhythms are not strictly periodic but rather fluctuate irregularly over time. Rhythms ...
Objective: In this study, we developed a joint distribution entropy (JDistEn) method to robustly est...
Complex fluctuations within physiological signals can be used to evaluate the health of the human bo...
The study compares permutation-based and coarse-grained entropy approaches for the assessment of com...
The aim of this investigation was to compare and contrast the use of cross sample entropy (xSE) and ...
It has long been suggested that various biological rhythms exhibit some degree of synchrony, and tha...
Biological rhythms mutually attract to each other. Defined as coupling, locomotor and respiration rh...
Synchronization provides an insight into underlying the interaction mechanisms among the bivariate t...
Abstract We performed a quantitative study of coupling patterns between respiration and spontaneous ...
Regularity and synchronisation between different rhythms mainly at low (LF) and high frequency (HF) ...
<p>Increased uncoupling between heart rate and respiratory rate is shown in patients in comparison t...
A method that enables measurement of the degree of coupling between two signals is presented. The me...
This study was aimed at comparing two alternative information-theoretic approaches for the combined ...
Background: Several algorithms have been proposed to quantify synchronization. However, little is kn...
It is known that in pathological conditions, physiological systems develop changes in the multiscale...
Physiological rhythms are not strictly periodic but rather fluctuate irregularly over time. Rhythms ...
Objective: In this study, we developed a joint distribution entropy (JDistEn) method to robustly est...
Complex fluctuations within physiological signals can be used to evaluate the health of the human bo...
The study compares permutation-based and coarse-grained entropy approaches for the assessment of com...