The present study shows that inhibition-of-return reduces competition for selection within the oculomotor system. We examined the effect of a distractor when it was presented at an inhibited location (IOR). The results show that due to IOR distractors cause less interference. This was evident in all three measures. First, there was less oculomotor capture when a distractor was presented at an inhibited location. Second, the saccade latency to the target was shorter when a distractor appeared at an inhibited location than when it appeared at a non-inhibited location. Third, there was less curvature towards the distractor when it was presented at inhibited location relative to a non-inhibited location. The observation that there is less inter...
The oculomotor system serves as the basis for representing concurrently competing motor programs. He...
This study used a classic exogenous cueing task in which an abrupt onset cue indicated the target lo...
When subjects make a quick saccade to one of two stimuli that are presented closely and simultaneous...
The present study shows that inhibition-of-return reduces competition for selection within the oculo...
Selecting a stimulus as the target for a goal-directed movement involves inhibiting other competing ...
Previous research has shown that when subjects search for a particular target object the sudden appe...
Identifying a stimulus as the target for a goal-directed movement involves inhibiting competing resp...
AbstractSelecting a stimulus as the target for a goal-directed movement involves inhibiting other co...
Previous research has shown that when subjects search for a particular target object the sudden appe...
It is generally agreed that saccade deviations away from a distractor location represent inhibition ...
This dissertation investigates inhibition of return (IOR) as two forms of inhibitory cueing effects ...
Inhibition is intimately involved in the ability to select a target for a goal-directed movement. Th...
The term Inhibition of Return (IOR) describes a performance decrement for stimuli appearing at a rec...
We propose two explicit mechanisms contributing to oculomotor inhibition of return (IOR): sensory an...
AbstractIt is generally agreed that saccade deviations away from a distractor location represent inh...
The oculomotor system serves as the basis for representing concurrently competing motor programs. He...
This study used a classic exogenous cueing task in which an abrupt onset cue indicated the target lo...
When subjects make a quick saccade to one of two stimuli that are presented closely and simultaneous...
The present study shows that inhibition-of-return reduces competition for selection within the oculo...
Selecting a stimulus as the target for a goal-directed movement involves inhibiting other competing ...
Previous research has shown that when subjects search for a particular target object the sudden appe...
Identifying a stimulus as the target for a goal-directed movement involves inhibiting competing resp...
AbstractSelecting a stimulus as the target for a goal-directed movement involves inhibiting other co...
Previous research has shown that when subjects search for a particular target object the sudden appe...
It is generally agreed that saccade deviations away from a distractor location represent inhibition ...
This dissertation investigates inhibition of return (IOR) as two forms of inhibitory cueing effects ...
Inhibition is intimately involved in the ability to select a target for a goal-directed movement. Th...
The term Inhibition of Return (IOR) describes a performance decrement for stimuli appearing at a rec...
We propose two explicit mechanisms contributing to oculomotor inhibition of return (IOR): sensory an...
AbstractIt is generally agreed that saccade deviations away from a distractor location represent inh...
The oculomotor system serves as the basis for representing concurrently competing motor programs. He...
This study used a classic exogenous cueing task in which an abrupt onset cue indicated the target lo...
When subjects make a quick saccade to one of two stimuli that are presented closely and simultaneous...