Repeated exposure to a consistent trans-saccadic step in the position of the saccadic target reliably produces a change of saccadic gain, a well-established trans-saccadic motor learning phenomenon known as saccadic adaptation. Trans-saccadic changes can also produce perceptual effects. Specifically, a systematic increase or decrease in the size of the object that is being foveated changes the perceptually equivalent size between fovea and periphery. Previous studies have shown that this recalibration of perceived size can be established within a few dozen trials, persists overnight, and generalizes across hemifields. In the current study, we use a novel adjustment paradigm to characterize both temporally and spatially the learning process ...
Saccadic adaptation is the motor learning process that keeps saccade amplitudes on target. This proc...
AbstractThree experiments were performed to determine how an error signal for driving saccadic adapt...
AbstractMultiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements...
Repeated exposure to a consistent trans-saccadic step in the position of the saccadic target reliabl...
Valsecchi and Gegenfurtner show that appearance of size is constantly calibrated on the basis of tra...
AbstractSaccades challenge visual perception since they induce large shifts of the image on the reti...
SummarySaccadic adaptation [1] is a powerful experimental paradigm to probe the mechanisms of eye mo...
Adaptive shortening of a saccade influences the metrics of other saccades within a spatial window ar...
AbstractAt the time of an impending saccade receptive fields (RFs) undergo dynamic changes, that is,...
AbstractGain adaptation of saccadic eye movements is the process whereby the size of the saccade is ...
Whenever we move our eyes, some visual information obtained before a saccade is combined with the vi...
Adaptation of saccades can be induced by different error signals, such as retinal position errors, p...
SummaryAlthough conscious perception is smooth and continuous, the input to the visual system is a s...
How does the brain maintain an accurate visual representation of external space? Movement errors fol...
AbstractAccurate scanning of natural scenes depends on: (1) attentional selection of the target; (2)...
Saccadic adaptation is the motor learning process that keeps saccade amplitudes on target. This proc...
AbstractThree experiments were performed to determine how an error signal for driving saccadic adapt...
AbstractMultiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements...
Repeated exposure to a consistent trans-saccadic step in the position of the saccadic target reliabl...
Valsecchi and Gegenfurtner show that appearance of size is constantly calibrated on the basis of tra...
AbstractSaccades challenge visual perception since they induce large shifts of the image on the reti...
SummarySaccadic adaptation [1] is a powerful experimental paradigm to probe the mechanisms of eye mo...
Adaptive shortening of a saccade influences the metrics of other saccades within a spatial window ar...
AbstractAt the time of an impending saccade receptive fields (RFs) undergo dynamic changes, that is,...
AbstractGain adaptation of saccadic eye movements is the process whereby the size of the saccade is ...
Whenever we move our eyes, some visual information obtained before a saccade is combined with the vi...
Adaptation of saccades can be induced by different error signals, such as retinal position errors, p...
SummaryAlthough conscious perception is smooth and continuous, the input to the visual system is a s...
How does the brain maintain an accurate visual representation of external space? Movement errors fol...
AbstractAccurate scanning of natural scenes depends on: (1) attentional selection of the target; (2)...
Saccadic adaptation is the motor learning process that keeps saccade amplitudes on target. This proc...
AbstractThree experiments were performed to determine how an error signal for driving saccadic adapt...
AbstractMultiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements...