Human movements are prone to errors that arise from inaccuracies in both our perceptual processing and execution of motor commands. We can reduce such errors by both improving our estimates of the state of the world and through online error correction of the ongoing action. Two prominent frameworks that explain how humans solve these problems are Bayesian estimation and stochastic optimal feedback control. Here we examine the interaction between estimation and control by asking if uncertainty in estimates affects how subjects correct for errors that may arise during the movement. Unbeknownst to participants, we randomly shifted the visual feedback of their finger position as they reached to indicate the center of mass of an object. Even tho...
<div><p>The role of motor uncertainty in discrete or static space tasks, such as pointing tasks, has...
2021 Fall.Includes bibliographical references.Effective motor control relies on accurate sensory inf...
It has been proposed that accurate motor control relies on Bayesian inference that integrates sensor...
Human movements are prone to errors that arise from inaccuracies in both our perceptual processing a...
Uncertainty constitutes a fundamental constraint on human sensorimotor control. Our sensors are nois...
<div><p>Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The q...
Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The question ...
Recent advances in movement neuroscience suggest that sensorimotor control can be considered as a co...
Recent advances in movement neuroscience suggest that sensorimotor control can be considered as a co...
Recent advances in movement neuroscience suggest that sensorimotor control can be considered as a co...
Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The question ...
Humans can adapt their motor behaviors to deal with ongoing changes. To achieve this, the nervous sy...
Neural signals are corrupted by noise and this places limits on information processing. We review th...
Uncertainty is ubiquitous in our sensorimotor interactions, arising from factors such as sensory and...
The role of motor uncertainty in discrete or static space tasks, such as pointing tasks, has been in...
<div><p>The role of motor uncertainty in discrete or static space tasks, such as pointing tasks, has...
2021 Fall.Includes bibliographical references.Effective motor control relies on accurate sensory inf...
It has been proposed that accurate motor control relies on Bayesian inference that integrates sensor...
Human movements are prone to errors that arise from inaccuracies in both our perceptual processing a...
Uncertainty constitutes a fundamental constraint on human sensorimotor control. Our sensors are nois...
<div><p>Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The q...
Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The question ...
Recent advances in movement neuroscience suggest that sensorimotor control can be considered as a co...
Recent advances in movement neuroscience suggest that sensorimotor control can be considered as a co...
Recent advances in movement neuroscience suggest that sensorimotor control can be considered as a co...
Random errors are omnipresent in sensorimotor tasks due to perceptual and motor noise. The question ...
Humans can adapt their motor behaviors to deal with ongoing changes. To achieve this, the nervous sy...
Neural signals are corrupted by noise and this places limits on information processing. We review th...
Uncertainty is ubiquitous in our sensorimotor interactions, arising from factors such as sensory and...
The role of motor uncertainty in discrete or static space tasks, such as pointing tasks, has been in...
<div><p>The role of motor uncertainty in discrete or static space tasks, such as pointing tasks, has...
2021 Fall.Includes bibliographical references.Effective motor control relies on accurate sensory inf...
It has been proposed that accurate motor control relies on Bayesian inference that integrates sensor...