Series of motor outputs generated by cyclic movements are typically complex, suggesting that the correlation function of the time series spans over a large number of consecutive samples. Famous examples include inter-stride intervals, heartbeat variability, spontaneous neural firing patterns or motor synchronization with external pacing. Long-range correlations are potentially important for fundamental research, as the neural and biomechanical mechanisms generating these correlations remain unknown, and for clinical applications, given that the loss of long-range correlation may be a marker of disease. However, no systematic approach or robust analysis methods have yet been used to support the study of correlation functions in physiological...
In a previous study, we reported that the mean square displacement calculated from the surface elect...
Background and Objective. The analysis of fractal fluctuation has become very popular because of the...
We discuss the application of time-frequency analysis to biomechanical-type signals, and in particul...
The spontaneous or background discharge patterns of in vivo single neuron is mostly considered as ne...
Human physiological signals are inherently rhythmic and have a hallmark feature in that even distant...
<div><p>Stride intervals of normal human walking exhibit long-range temporal correlations. Similar t...
Human locomotion is a rhythmic process whose variability can be investigated in two different ways. ...
Dynamic analysis provides a powerful methodological framework for characterizing physiological syste...
The analysis of electroencephalographic (EEG) series associated with movement performance is importa...
To study the dynamics of the cardiovascular system several cardiovascular functions are measured at ...
In human walking, consecutive strides exhibit a fractal correlation structure. When gait is paced wi...
ObjectiveWe aim to propose a novel method of evaluating the degree of rhythmic irregularity during r...
During free walking, gait is automatically adjusted to provide optimal mechanical output and minimal...
International audienceA simple method, based on cross-correlation functions (CCFs) between two time ...
Gait variability is a sensitive metric for assessing functional deficits in individuals with mobilit...
In a previous study, we reported that the mean square displacement calculated from the surface elect...
Background and Objective. The analysis of fractal fluctuation has become very popular because of the...
We discuss the application of time-frequency analysis to biomechanical-type signals, and in particul...
The spontaneous or background discharge patterns of in vivo single neuron is mostly considered as ne...
Human physiological signals are inherently rhythmic and have a hallmark feature in that even distant...
<div><p>Stride intervals of normal human walking exhibit long-range temporal correlations. Similar t...
Human locomotion is a rhythmic process whose variability can be investigated in two different ways. ...
Dynamic analysis provides a powerful methodological framework for characterizing physiological syste...
The analysis of electroencephalographic (EEG) series associated with movement performance is importa...
To study the dynamics of the cardiovascular system several cardiovascular functions are measured at ...
In human walking, consecutive strides exhibit a fractal correlation structure. When gait is paced wi...
ObjectiveWe aim to propose a novel method of evaluating the degree of rhythmic irregularity during r...
During free walking, gait is automatically adjusted to provide optimal mechanical output and minimal...
International audienceA simple method, based on cross-correlation functions (CCFs) between two time ...
Gait variability is a sensitive metric for assessing functional deficits in individuals with mobilit...
In a previous study, we reported that the mean square displacement calculated from the surface elect...
Background and Objective. The analysis of fractal fluctuation has become very popular because of the...
We discuss the application of time-frequency analysis to biomechanical-type signals, and in particul...