When repeatedly switching between two visuomotor mappings, e.g. in a reaching or pointing task, adaptation tends to speed up over time. That is, when the error in the feedback corresponds to a mapping switch, fast adaptation occurs. Yet, what is learned, the relative error or the absolute mappings? When switching between mappings, errors with a size corresponding to the relative difference between the mappings will occur more often than other large errors. Thus, we could learn to correct more for errors with this familiar size (Error Learning). On the other hand, it has been shown that the human visuomotor system can store several absolute visuomotor mappings (Mapping Learning) and can use associated contextual cues to retrieve them. Thus, ...
The proper association between planned and executed movements is crucial for motor learning because ...
The brain rapidly adapts reaching movements to changing circumstances by using visual feedback about...
Sensorimotor adaptation, the process that reduces movement errors by learning from sensory feedback,...
Adaptation to specific visuomotor mappings becomes faster when switching back and forth between them...
Adaptation to specific visuomotor conflicts becomes faster with repetition. What is learned when rep...
<div><p>Humans can learn and store multiple visuomotor mappings (dual-adaptation) when feedback for ...
van Dam L, Ernst MO. Relative errors can cue absolute visuomotor mappings. Experimental Brain Resear...
An important issue in motor learning/adaptation research is how the brain accepts the error informat...
We investigated the role of visual feedback of task performance in visuomotor adaptation. Participan...
Sensorimotor adaptation has traditionally been viewed as a purely error-based process. There is, how...
van Dam L, Ernst MO. Mapping Shape to Visuomotor Mapping: Learning and Generalisation of Sensorimoto...
Contains fulltext : 150720.pdf (publisher's version ) (Open Access)Even when provi...
When exposed to a continuous directional discrepancy between movements of a visible hand cursor and ...
The visuomotor system recalibrates when visual and motor maps are in conflict, bringing the maps bac...
Even when provided with feedback after every movement, adaptation levels off before biases are compl...
The proper association between planned and executed movements is crucial for motor learning because ...
The brain rapidly adapts reaching movements to changing circumstances by using visual feedback about...
Sensorimotor adaptation, the process that reduces movement errors by learning from sensory feedback,...
Adaptation to specific visuomotor mappings becomes faster when switching back and forth between them...
Adaptation to specific visuomotor conflicts becomes faster with repetition. What is learned when rep...
<div><p>Humans can learn and store multiple visuomotor mappings (dual-adaptation) when feedback for ...
van Dam L, Ernst MO. Relative errors can cue absolute visuomotor mappings. Experimental Brain Resear...
An important issue in motor learning/adaptation research is how the brain accepts the error informat...
We investigated the role of visual feedback of task performance in visuomotor adaptation. Participan...
Sensorimotor adaptation has traditionally been viewed as a purely error-based process. There is, how...
van Dam L, Ernst MO. Mapping Shape to Visuomotor Mapping: Learning and Generalisation of Sensorimoto...
Contains fulltext : 150720.pdf (publisher's version ) (Open Access)Even when provi...
When exposed to a continuous directional discrepancy between movements of a visible hand cursor and ...
The visuomotor system recalibrates when visual and motor maps are in conflict, bringing the maps bac...
Even when provided with feedback after every movement, adaptation levels off before biases are compl...
The proper association between planned and executed movements is crucial for motor learning because ...
The brain rapidly adapts reaching movements to changing circumstances by using visual feedback about...
Sensorimotor adaptation, the process that reduces movement errors by learning from sensory feedback,...