In case of delayed visual feedback during visuomotor tasks, like in some sluggish computer games, humans can modulate their behavior to compensate for the delay. However, opinions on the nature of this compensation diverge. Some studies suggest that humans adapt to feedback delays with lasting changes in motor behavior (aftereffects) and a recalibration of time perception. Other studies have shown little or no evidence for such semipermanent recalibration in the temporal domain. We hypothesize that predictability of the reference signal (target to be tracked) is necessary for semipermanent delay adaptation. To test this hypothesis, we trained participants with a 200 ms visual feedback delay in a visually guided manual tracking task, varying...
Under many conditions, the human visuomotor system quickly adapts when confronted with spatially dis...
An important issue in motor learning/adaptation research is how the brain accepts the error informat...
Under many conditions, the human visuomotor system quickly adapts when confronted with spatially dis...
Computational theory of motor control suggests that the brain continuously monitors motor commands, ...
It has been shown in many domains that sensorimotor adaptation and skill learning can recalibrate ou...
The human capacity to adjust perceptually and behaviourally to spatial perturbations (eg, prism gogg...
Delaying the presentation of information to one modality relative to another (an intersensory tempor...
Abstract: Adaptation to delays between actions and sensory feedback is important for efficiently int...
Evidence for motion extrapolation at motion offset is scarce. In contrast, there is abundant evidenc...
It is known that people can learn to deal with delays between their actions and the consequences of ...
In order to rapdily and accurately interact with the world, we need to perceive the consequences of ...
In daily life, we often need to make accurate and precise movements. However, our movements do not a...
The consequences of an action almost always occur immediately. Delaying the consequences of an actio...
YesBackground: Our motor actions normally generate sensory events, but how do we know which events w...
The goal of this study was to examine the reorganization of hand movements during adaptation to dela...
Under many conditions, the human visuomotor system quickly adapts when confronted with spatially dis...
An important issue in motor learning/adaptation research is how the brain accepts the error informat...
Under many conditions, the human visuomotor system quickly adapts when confronted with spatially dis...
Computational theory of motor control suggests that the brain continuously monitors motor commands, ...
It has been shown in many domains that sensorimotor adaptation and skill learning can recalibrate ou...
The human capacity to adjust perceptually and behaviourally to spatial perturbations (eg, prism gogg...
Delaying the presentation of information to one modality relative to another (an intersensory tempor...
Abstract: Adaptation to delays between actions and sensory feedback is important for efficiently int...
Evidence for motion extrapolation at motion offset is scarce. In contrast, there is abundant evidenc...
It is known that people can learn to deal with delays between their actions and the consequences of ...
In order to rapdily and accurately interact with the world, we need to perceive the consequences of ...
In daily life, we often need to make accurate and precise movements. However, our movements do not a...
The consequences of an action almost always occur immediately. Delaying the consequences of an actio...
YesBackground: Our motor actions normally generate sensory events, but how do we know which events w...
The goal of this study was to examine the reorganization of hand movements during adaptation to dela...
Under many conditions, the human visuomotor system quickly adapts when confronted with spatially dis...
An important issue in motor learning/adaptation research is how the brain accepts the error informat...
Under many conditions, the human visuomotor system quickly adapts when confronted with spatially dis...