AbstractWe compared effects of covert spatial-attention shifts induced with exogenous or endogenous cues on microsaccade rate and direction. Separate and dissociated effects were obtained in rate and direction measures. Display changes caused microsaccade rate inhibition, followed by sustained rate enhancement. Effects on microsaccade direction were differentially tied to cue class (exogenous vs. endogenous) and type (neutral vs. directional). For endogenous cues, direction effects were weak and occurred late. Exogenous cues caused a fast direction bias towards the cue (i.e., early automatic triggering of saccade programs), followed by a shift in the opposite direction (i.e, controlled inhibition of cue-directed saccades, leading to a ‘leak...
Covert spatial attention is associated with spatial modulation of neural activity as well as with di...
paradigm to map the redistribution of spatial attention in response to a peripherally flashed cue. T...
During visual fixation, our eyes are not entirely still. Instead, small eye movements, such as micro...
AbstractFixational eye movements are subdivided into tremor, drift, and microsaccades. All three typ...
Microsaccades, or tiny eye movements that take place during periods of fixation, have long been thou...
Microsaccade rate during fixation is modulated by the presentation of a visual stimulus. When the st...
Abstract Covert shifts of attention are usually reXected in RT diVerences between responses to valid...
AbstractMicrosaccades, or tiny eye movements that take place during periods of fixation, have long b...
AbstractThis study examined the relationship between inhibition of return (IOR) in covert orienting ...
AbstractWe compared the spatial and temporal allocation of attention as revealed by microsaccades. O...
We compared the spatial and temporal allocation of attention as revealed by microsaccades. Observers...
The debate about the nature of fixational eye movements has revived recently with the claim that mic...
This study examined the relationship between inhibition of return (IOR) in covert orienting and micr...
In this dissertation, we investigate the relationship between visual attention and eye movement pro...
A substantial question in understanding expert behavior is isolating where experts look, and which a...
Covert spatial attention is associated with spatial modulation of neural activity as well as with di...
paradigm to map the redistribution of spatial attention in response to a peripherally flashed cue. T...
During visual fixation, our eyes are not entirely still. Instead, small eye movements, such as micro...
AbstractFixational eye movements are subdivided into tremor, drift, and microsaccades. All three typ...
Microsaccades, or tiny eye movements that take place during periods of fixation, have long been thou...
Microsaccade rate during fixation is modulated by the presentation of a visual stimulus. When the st...
Abstract Covert shifts of attention are usually reXected in RT diVerences between responses to valid...
AbstractMicrosaccades, or tiny eye movements that take place during periods of fixation, have long b...
AbstractThis study examined the relationship between inhibition of return (IOR) in covert orienting ...
AbstractWe compared the spatial and temporal allocation of attention as revealed by microsaccades. O...
We compared the spatial and temporal allocation of attention as revealed by microsaccades. Observers...
The debate about the nature of fixational eye movements has revived recently with the claim that mic...
This study examined the relationship between inhibition of return (IOR) in covert orienting and micr...
In this dissertation, we investigate the relationship between visual attention and eye movement pro...
A substantial question in understanding expert behavior is isolating where experts look, and which a...
Covert spatial attention is associated with spatial modulation of neural activity as well as with di...
paradigm to map the redistribution of spatial attention in response to a peripherally flashed cue. T...
During visual fixation, our eyes are not entirely still. Instead, small eye movements, such as micro...