Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The question is, are humans aware of their random errors on an instance-by-instance basis? The appealing answer would be 'no' because it seems intuitive that humans would otherwise immediately correct for the errors online, thereby increasing sensorimotor precision. However, here we show the opposite. Participants pointed to visual targets with varying degree of feedback. After movement completion participants indicated whether they believed they landed left or right of target. Surprisingly, participants' left/right-discriminability was well above chance, even without visual feedback. Only when forced to correct for the error after movement completion did...
n order to intercept moving objects, we need to predict the spatiotemporal features of the motion of...
Uncertainty constitutes a fundamental constraint on human sensorimotor control. Our sensors are nois...
When performing a skill such as throwing a dart, many different combinations of joint motions suffic...
Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The question ...
<div><p>Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The q...
Human movements are prone to errors that arise from inaccuracies in both our perceptual processing a...
Human movements are prone to errors that arise from inaccuracies in both our perceptual processing a...
When performing a sensorimotor task, e.g. pointing to visual targets, we constantly make errors. Tho...
SummaryIn motor learning, our brain uses movement errors to adjust planning of future movements. Thi...
Motor learning is driven by movement errors. The speed of learning can be quantified by the learning...
Many skills rely on performing noisy mental computations on noisy sensory measurements. Bayesian mod...
In motor learning, our brain uses movement errors to adjust planning of future movements. This proce...
Implicit sensorimotor adaptation is traditionally described as a process of error reduction, whereby...
Motor learning is driven by movement errors. The speed of learning can be quantified by the learning...
In daily life, we often need to make accurate and precise movements. However, our movements do not a...
n order to intercept moving objects, we need to predict the spatiotemporal features of the motion of...
Uncertainty constitutes a fundamental constraint on human sensorimotor control. Our sensors are nois...
When performing a skill such as throwing a dart, many different combinations of joint motions suffic...
Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The question ...
<div><p>Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The q...
Human movements are prone to errors that arise from inaccuracies in both our perceptual processing a...
Human movements are prone to errors that arise from inaccuracies in both our perceptual processing a...
When performing a sensorimotor task, e.g. pointing to visual targets, we constantly make errors. Tho...
SummaryIn motor learning, our brain uses movement errors to adjust planning of future movements. Thi...
Motor learning is driven by movement errors. The speed of learning can be quantified by the learning...
Many skills rely on performing noisy mental computations on noisy sensory measurements. Bayesian mod...
In motor learning, our brain uses movement errors to adjust planning of future movements. This proce...
Implicit sensorimotor adaptation is traditionally described as a process of error reduction, whereby...
Motor learning is driven by movement errors. The speed of learning can be quantified by the learning...
In daily life, we often need to make accurate and precise movements. However, our movements do not a...
n order to intercept moving objects, we need to predict the spatiotemporal features of the motion of...
Uncertainty constitutes a fundamental constraint on human sensorimotor control. Our sensors are nois...
When performing a skill such as throwing a dart, many different combinations of joint motions suffic...