Objective: In this study, we developed a joint distribution entropy (JDistEn) method to robustly estimate the coupling in short physiological series. Methods: The JDistEn method is derived from a joint distance matrix which is constructed from a combination of the distance matrix corresponding to each individual data channel using a geometric mean calculation. A coupled Rössler system and a coupled dual-kinetics neural mass model were used to examine how well JDistEn performed, specifically, its sensitivity for detecting weak coupling, its consistency in gauging coupling strength, and its reliability in processing input of decreased data length. Performance of JDistEn in estimating physiological coupling was further examined with bivariate ...
In the study of synchronization dynamics between interacting systems, several techniques are availab...
The aim of this investigation was to compare and contrast the use of cross sample entropy (xSE) and ...
We investigated the use and implementation of a nonlinear methodology for establishing which changes...
A method that enables measurement of the degree of coupling between two signals is presented. The me...
Abstract Background The detection of change in magnitude of directional coupling between two non-lin...
Synchronization provides an insight into underlying the interaction mechanisms among the bivariate t...
This study introduces a new approach for the detection of nonlinear Granger causality between dynami...
The coupling strength between electroencephalogram (EEG) and electromyography (EMG) signals during m...
An important goal in neuroscience is to identify instances when EEG signals are coupled. We employ a...
Cross-frequency phase–amplitude coupling (PAC) plays an important role in neuronal oscillations netw...
Estimating interactions between physiological systems is an important challenge in modern biomedical...
Cross-approximate entropy (X-ApEn) and cross-sample entropy (X-SampEn) have been employed as bivaria...
In our study, we compare three popular approaches to directed coupling analysis, in particular trans...
An important goal in neuroscience is to identify instances when EEG signals are coupled. We employ a...
A new measure for the characterization of interconnected dynamical systems coupling is proposed. The...
In the study of synchronization dynamics between interacting systems, several techniques are availab...
The aim of this investigation was to compare and contrast the use of cross sample entropy (xSE) and ...
We investigated the use and implementation of a nonlinear methodology for establishing which changes...
A method that enables measurement of the degree of coupling between two signals is presented. The me...
Abstract Background The detection of change in magnitude of directional coupling between two non-lin...
Synchronization provides an insight into underlying the interaction mechanisms among the bivariate t...
This study introduces a new approach for the detection of nonlinear Granger causality between dynami...
The coupling strength between electroencephalogram (EEG) and electromyography (EMG) signals during m...
An important goal in neuroscience is to identify instances when EEG signals are coupled. We employ a...
Cross-frequency phase–amplitude coupling (PAC) plays an important role in neuronal oscillations netw...
Estimating interactions between physiological systems is an important challenge in modern biomedical...
Cross-approximate entropy (X-ApEn) and cross-sample entropy (X-SampEn) have been employed as bivaria...
In our study, we compare three popular approaches to directed coupling analysis, in particular trans...
An important goal in neuroscience is to identify instances when EEG signals are coupled. We employ a...
A new measure for the characterization of interconnected dynamical systems coupling is proposed. The...
In the study of synchronization dynamics between interacting systems, several techniques are availab...
The aim of this investigation was to compare and contrast the use of cross sample entropy (xSE) and ...
We investigated the use and implementation of a nonlinear methodology for establishing which changes...