It is well-known in motor control literature that a response time (RT) increases as a logarithmic function of the number of response alternatives (NA) (Hick's law). In this study, we identified neural correlates for this relationship using event-related functional MRI and a choice finger-movement task. Behaviorally, average RTs of all subjects increased as a logarithmic function of the NA in accordance with the law. From a voxel-wise search for brain areas where the activity was correlated with NA and thence the RT, a positive correlation was found at the posterior cingulate and left superior frontal gyri, whereas a negative correlation was observed at areas in bilateral inferior parietal lobules. This differential modulation by the task co...
International audienceAbstract Action selection refers to the decision regarding which action to per...
Objective To compare brain activity in the alpha and beta bands in relation to different modes of r...
Contains fulltext : 130558.pdf (publisher's version ) (Open Access)Choice behavior...
Behavioral and neurophysiological studies of numerical comparisons have shown a "distance effect," w...
Anterior cingulate cortex (ACC) may play a key role in cognitive control by monitoring for the occur...
Successful motor behavior requires making appropriate re-sponse (response selection) at the right ti...
The Hick-Hyman law describes a linear increase in reaction time (RT) as a function of the informatio...
Abstract: Response selection, which involves choosing representations for appropriate motor behavior...
A response mechanism takes evaluations of the importance of potential actions and selects the most s...
Hick's law describes the relation between choice reaction time (RT) and the number of stimulus-respo...
Humans have the ability to make motor responses to unpredictable visual stimuli, and do so as a matt...
A response mechanism takes evaluations of the importance of potential actions and selects the most s...
In reaction-time (RT) tasks with unequally probable stimuli, people respond faster and more accurate...
Motor response selection is the process by which an intention to act is transformed into an action; ...
Current models of decision making postulate that action selection entails a competition within motor...
International audienceAbstract Action selection refers to the decision regarding which action to per...
Objective To compare brain activity in the alpha and beta bands in relation to different modes of r...
Contains fulltext : 130558.pdf (publisher's version ) (Open Access)Choice behavior...
Behavioral and neurophysiological studies of numerical comparisons have shown a "distance effect," w...
Anterior cingulate cortex (ACC) may play a key role in cognitive control by monitoring for the occur...
Successful motor behavior requires making appropriate re-sponse (response selection) at the right ti...
The Hick-Hyman law describes a linear increase in reaction time (RT) as a function of the informatio...
Abstract: Response selection, which involves choosing representations for appropriate motor behavior...
A response mechanism takes evaluations of the importance of potential actions and selects the most s...
Hick's law describes the relation between choice reaction time (RT) and the number of stimulus-respo...
Humans have the ability to make motor responses to unpredictable visual stimuli, and do so as a matt...
A response mechanism takes evaluations of the importance of potential actions and selects the most s...
In reaction-time (RT) tasks with unequally probable stimuli, people respond faster and more accurate...
Motor response selection is the process by which an intention to act is transformed into an action; ...
Current models of decision making postulate that action selection entails a competition within motor...
International audienceAbstract Action selection refers to the decision regarding which action to per...
Objective To compare brain activity in the alpha and beta bands in relation to different modes of r...
Contains fulltext : 130558.pdf (publisher's version ) (Open Access)Choice behavior...