The dynamics of rhythmic movement has both deterministic and stochastic features. We advocate a recently established analysis method that allows for an unbiased identification of both types of system components. The deterministic components are revealed in terms of drift coefficients and vector fields, while the stochastic components are assessed in terms of diffusion coefficients and ellipse fields. The general principles of the procedure and its application are explained and illustrated using simulated data from known dynamical systems. Subsequently, we exemplify the method's merits in extracting deterministic and stochastic aspects of various instances of rhythmic movement, including tapping, wrist cycling and forearm oscillations. In pa...
The purpose of this study is to introduce a new, very sensitive method to quantify differences of m...
In recent years, theory-building in motor neuroscience and our understanding of the synergistic cont...
Current research on discrete and rhythmic movements differs in both experimental procedures and theo...
The authors examined the dynamics governing rhythmic forearm movements that 9 participants performed...
Abstract—A random dynamics with two stochastic terms is modeled based on a time series of physiologi...
One way to consider rhythmic movements (e.g., locomotion) is in terms of the dynamical properties of...
Literature mentions two types of models describing cyclic movement-theory and data driven. Theory dr...
Literature mentions two types of models describing cyclic movement-theory and data driven. Theory dr...
Entropy is an effective tool for investigation of human movement variability. However, before applyi...
Attempts to understand human movement systems from the perspective of nonlinear dynamics have increa...
Traditional methods of human motion analysis assume that fluctuations in cycles (e.g. gait motion) a...
The dynamical approach to movement control, championed by workers at Haskins Laboratories and the Un...
We analyse the dynamics of human gait with simple nonlinear time series analysis methods that are ap...
The variability of single and coupled rhythmic limb movements is assumed to be a consequence of the ...
In this dissertation, I computationally analyze the dynamic pattern for time series belonging to two...
The purpose of this study is to introduce a new, very sensitive method to quantify differences of m...
In recent years, theory-building in motor neuroscience and our understanding of the synergistic cont...
Current research on discrete and rhythmic movements differs in both experimental procedures and theo...
The authors examined the dynamics governing rhythmic forearm movements that 9 participants performed...
Abstract—A random dynamics with two stochastic terms is modeled based on a time series of physiologi...
One way to consider rhythmic movements (e.g., locomotion) is in terms of the dynamical properties of...
Literature mentions two types of models describing cyclic movement-theory and data driven. Theory dr...
Literature mentions two types of models describing cyclic movement-theory and data driven. Theory dr...
Entropy is an effective tool for investigation of human movement variability. However, before applyi...
Attempts to understand human movement systems from the perspective of nonlinear dynamics have increa...
Traditional methods of human motion analysis assume that fluctuations in cycles (e.g. gait motion) a...
The dynamical approach to movement control, championed by workers at Haskins Laboratories and the Un...
We analyse the dynamics of human gait with simple nonlinear time series analysis methods that are ap...
The variability of single and coupled rhythmic limb movements is assumed to be a consequence of the ...
In this dissertation, I computationally analyze the dynamic pattern for time series belonging to two...
The purpose of this study is to introduce a new, very sensitive method to quantify differences of m...
In recent years, theory-building in motor neuroscience and our understanding of the synergistic cont...
Current research on discrete and rhythmic movements differs in both experimental procedures and theo...