In this study, we investigated the time course of oculomotor competition between bottom-up and top-down selection processes using saccade trajectory deviations as a dependent measure. We used a paradigm in which we manipulated saccade latency by offsetting the fixation point at different time points relative to target onset. In experiment 1, observers made a saccade to a filled colored circle while another irrelevant distractor circle was presented. The distractor was either similar (i.e., identical) or dissimilar to the target. Results showed that the strength of saccade deviation was modulated by target distractor similarity for short saccade latencies. To rule out the possibility that the similar distractor affected the saccade trajector...
We use our eyes to investigate the world around us and decide what we want to act on. In a crowded s...
Saccadic eye movements enable us to rapidly direct our high-resolution fovea onto relevant parts of ...
Recent evidence indicates that stimulus-driven and goal-directed control of visual selection operate...
In this study, we investigated the time course of oculomotor competition between bottom-up and top-d...
Selecting a stimulus as the target for a goal-directed movement involves inhibiting other competing ...
The deviation of a saccade trajectory is a measure of the oculomotor competition evoked by a distrac...
Saccadic eye movements are typically preceded by selective shifts of visual attention. Recent eviden...
Selecting a stimulus as the target for a goal-directed movement involves inhibiting other competing ...
Inhibition is intimately involved in the ability to select a target for a goal-directed movement. Th...
AbstractSelecting a stimulus as the target for a goal-directed movement involves inhibiting other co...
Every time we make a saccade we form a prediction about where objects are going to be when the eye l...
Remote transient changes in the environment, such as the onset of visual distractors, impact on the ...
The oculomotor system serves as the basis for representing concurrently competing motor programs. He...
AbstractA study is reported in which eye movements were recorded when observers attempted to make a ...
Identifying a stimulus as the target for a goal-directed movement involves inhibiting competing resp...
We use our eyes to investigate the world around us and decide what we want to act on. In a crowded s...
Saccadic eye movements enable us to rapidly direct our high-resolution fovea onto relevant parts of ...
Recent evidence indicates that stimulus-driven and goal-directed control of visual selection operate...
In this study, we investigated the time course of oculomotor competition between bottom-up and top-d...
Selecting a stimulus as the target for a goal-directed movement involves inhibiting other competing ...
The deviation of a saccade trajectory is a measure of the oculomotor competition evoked by a distrac...
Saccadic eye movements are typically preceded by selective shifts of visual attention. Recent eviden...
Selecting a stimulus as the target for a goal-directed movement involves inhibiting other competing ...
Inhibition is intimately involved in the ability to select a target for a goal-directed movement. Th...
AbstractSelecting a stimulus as the target for a goal-directed movement involves inhibiting other co...
Every time we make a saccade we form a prediction about where objects are going to be when the eye l...
Remote transient changes in the environment, such as the onset of visual distractors, impact on the ...
The oculomotor system serves as the basis for representing concurrently competing motor programs. He...
AbstractA study is reported in which eye movements were recorded when observers attempted to make a ...
Identifying a stimulus as the target for a goal-directed movement involves inhibiting competing resp...
We use our eyes to investigate the world around us and decide what we want to act on. In a crowded s...
Saccadic eye movements enable us to rapidly direct our high-resolution fovea onto relevant parts of ...
Recent evidence indicates that stimulus-driven and goal-directed control of visual selection operate...