A slow oscillatory movement (SOM) has previously been discovered superimposed on the three well known components of fixational eye movements. The purpose of the present study was to explore the visual influence on the control mechanism of the SOM. Three tests with different fixation targets and backgrounds were prepared. The eye position during a fixation task on healthy test subjects has been recorded by the Chronos eye tracking device. The visual stimuli with no or less information triggered larger SOM amplitudes. None of the investigated conditions significantly influenced on SOM frequency
PURPOSE. We investigated under what conditions humans can make independent slow phase eye movements....
AbstractEye position was recorded in different viewing conditions to assess whether the temporal and...
In this study, how the state of eye movement before saccade affected the response to a stimulus was ...
A slow oscillatory movement (SOM) has previously been discovered superimposed on the three well know...
AbstractA slow oscillatory movement (SOM) has previously been discovered superimposed on the three w...
none4A slow oscillatory eye movement was discovered in a 20-min-long recording. The frequency of thi...
PURPOSE: Slow oscillatory eye movements (SOMs) occur simultaneously with tremor, drifts, and micros...
AbstractMany normal individuals show ocular oscillations on eccentric gaze. This study was designed ...
Tiny eye movements, such as micro-saccades, ocular tremor, and drifts, occur involuntarily during fi...
ABSTRACT—The debate about the nature of fixational eye movements has revived recently with the claim...
Our eyes are always in motion. Even when we attempt to maintain steady gaze, fixational eye movemen...
ABSTRACT—During fixation of a stationary target, small invol-untary eye movements exhibit an erratic...
Eye position was recorded in different viewing conditions to assess whether the temporal and spatial...
This thesis presents three different strands of research into fixational eye movements: the detectio...
Peripheral-motion-change-detection performance was examined by contrasting a fixation with a SPEM co...
PURPOSE. We investigated under what conditions humans can make independent slow phase eye movements....
AbstractEye position was recorded in different viewing conditions to assess whether the temporal and...
In this study, how the state of eye movement before saccade affected the response to a stimulus was ...
A slow oscillatory movement (SOM) has previously been discovered superimposed on the three well know...
AbstractA slow oscillatory movement (SOM) has previously been discovered superimposed on the three w...
none4A slow oscillatory eye movement was discovered in a 20-min-long recording. The frequency of thi...
PURPOSE: Slow oscillatory eye movements (SOMs) occur simultaneously with tremor, drifts, and micros...
AbstractMany normal individuals show ocular oscillations on eccentric gaze. This study was designed ...
Tiny eye movements, such as micro-saccades, ocular tremor, and drifts, occur involuntarily during fi...
ABSTRACT—The debate about the nature of fixational eye movements has revived recently with the claim...
Our eyes are always in motion. Even when we attempt to maintain steady gaze, fixational eye movemen...
ABSTRACT—During fixation of a stationary target, small invol-untary eye movements exhibit an erratic...
Eye position was recorded in different viewing conditions to assess whether the temporal and spatial...
This thesis presents three different strands of research into fixational eye movements: the detectio...
Peripheral-motion-change-detection performance was examined by contrasting a fixation with a SPEM co...
PURPOSE. We investigated under what conditions humans can make independent slow phase eye movements....
AbstractEye position was recorded in different viewing conditions to assess whether the temporal and...
In this study, how the state of eye movement before saccade affected the response to a stimulus was ...