How does the brain use eye movements to track objects that move in unpredictable directions and speeds? Saccadic eye movements rapidly foveate peripheral visual or auditory targets and smooth pursuit eye movements keep the fovea pointed toward an attended moving target. Analyses of tracking data in monkeys and humans reveal systematic deviations from predictions of the simplest model of saccade-pursuit interactions, which would use no interactions other than common target selection and recruitment of shared motoneurons. Instead, saccadic and smooth pursuit movements cooperate to cancel errors of gaze position and velocity, and thus to maximize target visibility through time. How are these two systems coordinated to promote visual localizati...
Saccades modulate the relationship between visual motion and smooth eye movement. Before a saccade, ...
International audiencePrimary (interceptive) saccades toward a moving target have been proposed to b...
Visual tracking of moving objects requires prediction to compensate for visual delays and minimize m...
Oculomotor tracking of moving objects is an important component of visually based cognition and plan...
The ability to catch moving objects with our line of sight is crucial for survival in our dynamic ev...
International audiencePrimates (including humans) heavily rely on the efficiency of their visual sys...
Saccades are rapid eye movements that relocate the fovea, the retinal area with highest acuity, to f...
Saccades and smooth pursuit eye movements are two different modes of oculomotor control. Saccades ar...
International audienceTwo types of eye movement are made while one tracks a target moving in the vis...
When tracking moving visual stimuli, primates orient their visual axis by combining two kinds of eye...
International audienceWhen an object moves in the visual field, its motion evokes a streak of activi...
International audienceAn object moving in the visual field triggers a saccade that brings its image ...
International audiencePrimates heavily rely on their visual system, which exploits signals of graded...
During visual tracking of a moving stimulus, primates orient their visual axis by combining two very...
Saccades modulate the relationship between visual motion and smooth eye movement. Before a saccade, ...
Saccades modulate the relationship between visual motion and smooth eye movement. Before a saccade, ...
International audiencePrimary (interceptive) saccades toward a moving target have been proposed to b...
Visual tracking of moving objects requires prediction to compensate for visual delays and minimize m...
Oculomotor tracking of moving objects is an important component of visually based cognition and plan...
The ability to catch moving objects with our line of sight is crucial for survival in our dynamic ev...
International audiencePrimates (including humans) heavily rely on the efficiency of their visual sys...
Saccades are rapid eye movements that relocate the fovea, the retinal area with highest acuity, to f...
Saccades and smooth pursuit eye movements are two different modes of oculomotor control. Saccades ar...
International audienceTwo types of eye movement are made while one tracks a target moving in the vis...
When tracking moving visual stimuli, primates orient their visual axis by combining two kinds of eye...
International audienceWhen an object moves in the visual field, its motion evokes a streak of activi...
International audienceAn object moving in the visual field triggers a saccade that brings its image ...
International audiencePrimates heavily rely on their visual system, which exploits signals of graded...
During visual tracking of a moving stimulus, primates orient their visual axis by combining two very...
Saccades modulate the relationship between visual motion and smooth eye movement. Before a saccade, ...
Saccades modulate the relationship between visual motion and smooth eye movement. Before a saccade, ...
International audiencePrimary (interceptive) saccades toward a moving target have been proposed to b...
Visual tracking of moving objects requires prediction to compensate for visual delays and minimize m...