There is disagreement in the literature as to whether smooth pursuit latency is reduced when a temporal gap is introduced between the extinction of a central fixation target and the illumination of an eccentric moving target. This study confirms that in human subjectssmooth pursuit latency is reduced by gaps and that the magnitude of the reduction is related to the duration of the gap. However, latency is not solely determined either by visual factors or by task parameters such as spatial predictability, but is affected by task context. The results suggest a role for non-visual factors such as attention in the initiation of pursuit
AbstractSaccadic eye movements generated in response to a gap paradigm in which the fixation light s...
In this study, how the state of eye movement before saccade affected the response to a stimulus was ...
Experiments with the Rashbass ‘step-ramp’ paradigm have revealed that the initial catchup saccade th...
AbstractIt has been demonstrated that in gap pursuit tasks, smooth pursuit latency is reduced. This ...
AbstractThe initiation of both pursuit and saccades was affected by the presence of a temporal gap b...
The ability to predict upcoming events is important to compensate for relatively long sensory-motor ...
AbstractThe gap effect refers to a reduction in the latency of saccades to peripherally appearing ta...
Visually guided catch-up saccades during the pursuit of a moving target are highly influenced by smo...
The ability to predict upcoming events is important to compensate for relatively long sensory-motor ...
To examine the effects of smooth pursuit eye movements on the initiation of saccades, their latency ...
When moving through our environment, it is vital to preferentially process positions on our future p...
When the offset of a visual stimulus (GAP condition) precedes the onset of a target, saccadic reacti...
Simple manual reaction time (MRT) to a visual target (S2) is shortened when a non-informative cue (S...
The initiation of both pursuit and saccades was affected by the presence of a temporal gap between t...
AbstractCan a release of attention from fixation help explain the saccadic ‘gap effect’, the shorten...
AbstractSaccadic eye movements generated in response to a gap paradigm in which the fixation light s...
In this study, how the state of eye movement before saccade affected the response to a stimulus was ...
Experiments with the Rashbass ‘step-ramp’ paradigm have revealed that the initial catchup saccade th...
AbstractIt has been demonstrated that in gap pursuit tasks, smooth pursuit latency is reduced. This ...
AbstractThe initiation of both pursuit and saccades was affected by the presence of a temporal gap b...
The ability to predict upcoming events is important to compensate for relatively long sensory-motor ...
AbstractThe gap effect refers to a reduction in the latency of saccades to peripherally appearing ta...
Visually guided catch-up saccades during the pursuit of a moving target are highly influenced by smo...
The ability to predict upcoming events is important to compensate for relatively long sensory-motor ...
To examine the effects of smooth pursuit eye movements on the initiation of saccades, their latency ...
When moving through our environment, it is vital to preferentially process positions on our future p...
When the offset of a visual stimulus (GAP condition) precedes the onset of a target, saccadic reacti...
Simple manual reaction time (MRT) to a visual target (S2) is shortened when a non-informative cue (S...
The initiation of both pursuit and saccades was affected by the presence of a temporal gap between t...
AbstractCan a release of attention from fixation help explain the saccadic ‘gap effect’, the shorten...
AbstractSaccadic eye movements generated in response to a gap paradigm in which the fixation light s...
In this study, how the state of eye movement before saccade affected the response to a stimulus was ...
Experiments with the Rashbass ‘step-ramp’ paradigm have revealed that the initial catchup saccade th...