DOI 10.1007/s002210000505 RESEARCH ARTICLE (2009)
Stefan Schaal, Dagmar Sternad, S. Schaal, D. Sternad, S. Schaal, D. Sternad
Origins and violations of the 2/3 power law in rhythmic three-dimensional arm movements
Actively tracking 'passive' stability in a ball bouncing task (2003)
De Rugy, A, Wei, KL, Muller, H, Sternad, D
This study investigates the control involved in a task where subjects rhythmically bounce a ball with a hand-held racket as regularly as possible to a prescribed amplitude. Stability analyses of a...
This study investigates a task in which discrete and rhythmic movements are combined in a single-joint elbow rotation. Previous studies reported a tendency for the EMG burst associated with the...
Actively tracking 'passive' stability in a ball bouncing task (2003)
De Rugy, A, Wei, KL, Muller, H, Sternad, D
This study investigates the control involved in a task where subjects rhythmically bounce a ball with a hand-held racket as regularly as possible to a prescribed amplitude. Stability analyses of a...
This study investigates a task in which discrete and rhythmic movements are combined in a single-joint elbow rotation. Previous studies reported a tendency for the EMG burst associated with the...
Interaction of discrete and rhythmic movements over a wide range of periods (2002)
Sternad, D, De Rugy, A, Pataky, T, Dean, WJ
This study investigates a complex task in which rhythmic and discrete components have to be combined in single-joint elbow rotations. While previous studies of similar tasks already reported that the...
Interaction of discrete and rhythmic movements over a wide range of periods (2002)
Sternad, D, De Rugy, A, Pataky, T, Dean, WJ
This study investigates a complex task in which rhythmic and discrete components have to be combined in single-joint elbow rotations. While previous studies of similar tasks already reported that the...
Exp Brain Res (1999) 124:118–136 © Springer-Verlag 1999 RESEARCH ARTICLE (1998)
Dagmar Sternad, Stefan Schaal, D. Sternad, S. Schaal, D. Sternad, S. Schaal
Segmentation of endpoint trajectories does not imply segmented control