AbstractIn a stop signal paradigm to investigate the control of human saccades subjects were instructed to make a saccade to a visual target appearing suddenly l5° to the left or to the right of the fixation point. In 25% of the trials an auditory stop signal was presented after a variable delay that required the subject to inhibit the saccade. The stop signal was presented randomly at the target position, at the opposite side, or at fixation. Using different estimation techniques the average time needed to inhibit a saccade (stop signal processing time, or SSPT) was estimated on the basis of the race model. The SSPT estimates ranging from 50 to 100 ms (depending on subject) are shorter than those from previous studies with visual stop sign...
Movement inhibition is an aspect of executive control that can be studied using the countermanding p...
In the antisaccade paradigm subjects are instructed to perform eye movements in the opposite directi...
We investigated human oculomotor behaviour in a Go-NoGo saccadic task in which the saccadic response...
AbstractWe used a countermanding paradigm to investigate the relationship between conflicting cues f...
Abstract In an eye movement countermanding paradigm it is demonstrated for the first time that a tac...
The stop-signal task has been used to study normal cognitive control and clinical dysfunction. Its u...
AbstractThe stop-signal or countermanding task probes the ability to control action by requiring sub...
In the stop-signal paradigm, participants perform a primary reaction task, for example a visual or a...
Abstract: The stop-signal task (SST) and anti-saccade tasks are both widely used to explore cognitiv...
The stop-signal or countermanding task probes the ability to control action by requiring subjects to...
Saccade stop signal and target step tasks are used to investigate the mechanisms of cognitive contro...
The eye movement system reacts very systematically to visual transients that are presented during th...
Countermanding behavior has long been seen as a cornerstone of executive control—the human ability t...
The latency of saccades, defined as the interval between target presentation and the beginning of ey...
The interactive race model of saccadic countermanding assumes that response inhibition results from ...
Movement inhibition is an aspect of executive control that can be studied using the countermanding p...
In the antisaccade paradigm subjects are instructed to perform eye movements in the opposite directi...
We investigated human oculomotor behaviour in a Go-NoGo saccadic task in which the saccadic response...
AbstractWe used a countermanding paradigm to investigate the relationship between conflicting cues f...
Abstract In an eye movement countermanding paradigm it is demonstrated for the first time that a tac...
The stop-signal task has been used to study normal cognitive control and clinical dysfunction. Its u...
AbstractThe stop-signal or countermanding task probes the ability to control action by requiring sub...
In the stop-signal paradigm, participants perform a primary reaction task, for example a visual or a...
Abstract: The stop-signal task (SST) and anti-saccade tasks are both widely used to explore cognitiv...
The stop-signal or countermanding task probes the ability to control action by requiring subjects to...
Saccade stop signal and target step tasks are used to investigate the mechanisms of cognitive contro...
The eye movement system reacts very systematically to visual transients that are presented during th...
Countermanding behavior has long been seen as a cornerstone of executive control—the human ability t...
The latency of saccades, defined as the interval between target presentation and the beginning of ey...
The interactive race model of saccadic countermanding assumes that response inhibition results from ...
Movement inhibition is an aspect of executive control that can be studied using the countermanding p...
In the antisaccade paradigm subjects are instructed to perform eye movements in the opposite directi...
We investigated human oculomotor behaviour in a Go-NoGo saccadic task in which the saccadic response...