People tend to make straight and smooth hand movements when reaching for an object. These trajectory features are resistant to perturbation, and both proprioceptive as well as visual feedback may guide the adaptive updating of motor commands enforcing this regularity. How is information from the two senses combined to generate a coherent internal representation of how the arm moves? Here we show that eliminating visual feedback of hand-path deviations from the straight-line reach (constraining visual feedback of motion within a virtual, "visual channel") prevents compensation of initial direction errors induced by perturbations. Because adaptive reduction in direction errors occurred with proprioception alone, proprioceptive and visual info...
We investigated what visual information contributes to on-line control of hand movements. It has bee...
The arm movement control system often relies on visual feedback to drive motor adaptation and to hel...
We investigated the extent to which humans can quickly adapt their goal-directed arm movements to pe...
People tend to make straight and smooth hand movements when reaching for an object. These trajectory...
Vision of the hand during reaching provides dynamic feedback that can be used to control movement. W...
We examined whether visual and proprioceptive estimates of transient (mid-reach) target capture erro...
When subjects are presented with distorted visual feedback of their hand during a goal-directed move...
Purpose: Being able to see one's hand while reaching for an object is known to improve accuracy and ...
Goal-directed movements are executed under the permanent supervision of the central nervous system, ...
International audienceGoal-directed movements are executed under the permanent supervision of the ce...
International audienceThe role of arm proprioception in motor learning was investigated in experimen...
BACKGROUND: When learning to perform a novel sensorimotor task, humans integrate multi-modal sensory...
Adapting reaches to altered visual feedback not only leads to motor changes, but also to shifts in p...
We examined control of the hand\u27s trajectory (direction and shape) and final equilibrium position...
Humans quickly and sophisticatedly correct their movements in response to changes in the world, such...
We investigated what visual information contributes to on-line control of hand movements. It has bee...
The arm movement control system often relies on visual feedback to drive motor adaptation and to hel...
We investigated the extent to which humans can quickly adapt their goal-directed arm movements to pe...
People tend to make straight and smooth hand movements when reaching for an object. These trajectory...
Vision of the hand during reaching provides dynamic feedback that can be used to control movement. W...
We examined whether visual and proprioceptive estimates of transient (mid-reach) target capture erro...
When subjects are presented with distorted visual feedback of their hand during a goal-directed move...
Purpose: Being able to see one's hand while reaching for an object is known to improve accuracy and ...
Goal-directed movements are executed under the permanent supervision of the central nervous system, ...
International audienceGoal-directed movements are executed under the permanent supervision of the ce...
International audienceThe role of arm proprioception in motor learning was investigated in experimen...
BACKGROUND: When learning to perform a novel sensorimotor task, humans integrate multi-modal sensory...
Adapting reaches to altered visual feedback not only leads to motor changes, but also to shifts in p...
We examined control of the hand\u27s trajectory (direction and shape) and final equilibrium position...
Humans quickly and sophisticatedly correct their movements in response to changes in the world, such...
We investigated what visual information contributes to on-line control of hand movements. It has bee...
The arm movement control system often relies on visual feedback to drive motor adaptation and to hel...
We investigated the extent to which humans can quickly adapt their goal-directed arm movements to pe...