Although we are rarely aware of it, our ability to visually perceive and successfully interact with the world depends on a rapid and carefully orchestrated sequence of eye movements. Roughly three times a second, large high-velocity movements known as saccades drastically alter the spatial and temporal stream of visual input. To investigate the temporal constraints on saccadic eye movements and identify biases in oculomotor behavior, I developed a simple but novel task: rapid alternating saccades (RAS). Human participants are asked to make a series of eye movements back and forth between stationary targets as quickly as possible.In Chapter 2, I investigate the characteristics of one of the most prominent and well-known biases in eye guidanc...
In this study, we investigated the time course of oculomotor competition between bottom-up and top-d...
When tracking moving visual stimuli, primates orient their visual axis by combining two kinds of eye...
<p>We have previously shown that oculomotor inhibition of return is predominantly retinotopic (gaze-...
Saccades are rapid eye movements that relocate the fovea, the retinal area with highest acuity, to f...
AbstractTasks such as reading or visual search consist of series of saccades. We have investigated t...
When subjects make a quick saccade to one of two stimuli that are presented closely and simultaneous...
The eye movement system reacts very systematically to visual transients that are presented during th...
Saccade latencies are longer prior to an eye movement to a recently fixated location than to control...
When searching with our eyes, parallel programming of successive eye movements ensures that visual i...
The coordination of arm movements and saccadic eye movements is important when we reach for an objec...
The human eye-movement system is equipped with a sophisticated updating mechanism that can adjust fo...
Saccades are fast eye movements that reorient gaze. They can be performed voluntarily—for example, w...
AbstractHuman observers take longer to re-direct gaze to a previously fixated location. Although the...
The temporal relation of competing visual stimuli may determine the corresponding oculomotor respons...
During visual tracking of a moving stimulus, primates orient their visual axis by combining two very...
In this study, we investigated the time course of oculomotor competition between bottom-up and top-d...
When tracking moving visual stimuli, primates orient their visual axis by combining two kinds of eye...
<p>We have previously shown that oculomotor inhibition of return is predominantly retinotopic (gaze-...
Saccades are rapid eye movements that relocate the fovea, the retinal area with highest acuity, to f...
AbstractTasks such as reading or visual search consist of series of saccades. We have investigated t...
When subjects make a quick saccade to one of two stimuli that are presented closely and simultaneous...
The eye movement system reacts very systematically to visual transients that are presented during th...
Saccade latencies are longer prior to an eye movement to a recently fixated location than to control...
When searching with our eyes, parallel programming of successive eye movements ensures that visual i...
The coordination of arm movements and saccadic eye movements is important when we reach for an objec...
The human eye-movement system is equipped with a sophisticated updating mechanism that can adjust fo...
Saccades are fast eye movements that reorient gaze. They can be performed voluntarily—for example, w...
AbstractHuman observers take longer to re-direct gaze to a previously fixated location. Although the...
The temporal relation of competing visual stimuli may determine the corresponding oculomotor respons...
During visual tracking of a moving stimulus, primates orient their visual axis by combining two very...
In this study, we investigated the time course of oculomotor competition between bottom-up and top-d...
When tracking moving visual stimuli, primates orient their visual axis by combining two kinds of eye...
<p>We have previously shown that oculomotor inhibition of return is predominantly retinotopic (gaze-...