Oculomotor behaviors integrate sensory and prior information to overcome sensory-motor delays and noise. After much debate about this process, reliability-based integration has recently been proposed and several models of smooth pursuit now include recurrent Bayesian integration or Kalman filtering. However, there is a lack of behavioral evidence in humans supporting these theoretical predictions. Here, we independently manipulated the reliability of visual and prior information in a smooth pursuit task. Our results show that both smooth pursuit eye velocity and catch-up saccade amplitude were modulated by visual and prior information reliability. We interpret these findings as the continuous reliability-based integration of a short-term me...
Visual tracking of moving objects requires prediction to compensate for visual delays and minimize m...
Saccades and smooth pursuit eye movements are two different modes of oculomotor control. Saccades ar...
Visual tracking of moving objects requires prediction to compensate for visual delays and minimize m...
The brain makes use of noisy sensory inputs to produce eye, head, or arm motion. In most instances, ...
Past results have reported conflicting findings on the oculomotor system's ability to keep track of ...
Moving objects are often occluded by neighboring objects. In order for the eye to smoothly pursue a ...
Moving objects are often occluded by neighboring objects. In order for the eye to smoothly pursue a ...
Combination of signals based on their reliability is an increasingly popular model for sensorimotor ...
© Copyright © 2019 Kim, Park and Lee.The integration of sensory with top–down cognitive signals for ...
For foveated animals, visual tracking of moving stimuli requires the synergy between saccades and sm...
Smooth pursuit eye movements are used to maintain gaze on moving targets. In order to overcome proc...
For humans, visual tracking of moving stimuli often triggers catch-up saccades during smooth pursuit...
AbstractEye movement behavior can be determined by bottom-up factors like visual salience and by top...
Sensory-motor behavior results from a complex interaction of noisy sensory data with priors based on...
Visually guided catch-up saccades during the pursuit of a moving target are highly influenced by smo...
Visual tracking of moving objects requires prediction to compensate for visual delays and minimize m...
Saccades and smooth pursuit eye movements are two different modes of oculomotor control. Saccades ar...
Visual tracking of moving objects requires prediction to compensate for visual delays and minimize m...
The brain makes use of noisy sensory inputs to produce eye, head, or arm motion. In most instances, ...
Past results have reported conflicting findings on the oculomotor system's ability to keep track of ...
Moving objects are often occluded by neighboring objects. In order for the eye to smoothly pursue a ...
Moving objects are often occluded by neighboring objects. In order for the eye to smoothly pursue a ...
Combination of signals based on their reliability is an increasingly popular model for sensorimotor ...
© Copyright © 2019 Kim, Park and Lee.The integration of sensory with top–down cognitive signals for ...
For foveated animals, visual tracking of moving stimuli requires the synergy between saccades and sm...
Smooth pursuit eye movements are used to maintain gaze on moving targets. In order to overcome proc...
For humans, visual tracking of moving stimuli often triggers catch-up saccades during smooth pursuit...
AbstractEye movement behavior can be determined by bottom-up factors like visual salience and by top...
Sensory-motor behavior results from a complex interaction of noisy sensory data with priors based on...
Visually guided catch-up saccades during the pursuit of a moving target are highly influenced by smo...
Visual tracking of moving objects requires prediction to compensate for visual delays and minimize m...
Saccades and smooth pursuit eye movements are two different modes of oculomotor control. Saccades ar...
Visual tracking of moving objects requires prediction to compensate for visual delays and minimize m...