Smooth pursuit is one of the five main eye movements in humans, consisting of tracking a steadily moving visual target. Smooth pursuit is a good example of a sensory-motor task that is deeply based on prediction: tracking a visual target is not possible by correcting the error between the eye and the target position or velocity with a feedback loop, but it is only possible by predicting the trajectory of the target. This paper presents a model of smooth pursuit based on prediction and learning. It starts from a model of the neuro-physiological system proposed by Shibata and Schaal (Shibata et al., Neural Networks, vol. 18, pp. 213-224, 2005). The learning component added here decreases the prediction time in the case of target dynamics alre...
In order to grasp an object in their visual field, humans orient their visual axis to targets of int...
International audienceThis paper presents a model for the autonomous learning of smooth pursuit eye ...
International audienceDuring eye tracking of a self-moved target, human subjects' performance differ...
Smooth pursuit is one of the five main eye movements in humans, consisting of tracking a steadily mo...
Smooth pursuit eye movements are used to maintain gaze on moving targets. In order to overcome proc...
A predictive component can contribute to the command signal for smooth pursuit. This is readily demo...
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 ...
Humans are able to track a moving visual target by generating voluntary smooth pursuit eye movements...
The brain makes use of noisy sensory inputs to produce eye, head, or arm motion. In most instances, ...
For a learned movement to be effective, it must be produced at the appropriate time, but how this is...
International audiencePrimates (including humans) heavily rely on the efficiency of their visual sys...
International audiencePrimates heavily rely on their visual system, which exploits signals of graded...
Abstract The smooth pursuit system has the ability to perform predictive feedforward control of eye ...
In this paper, we propose a biologically-plausible model to explain the emergence of motion tracking...
In order to grasp an object in their visual field, humans orient their visual axis to targets of int...
International audienceThis paper presents a model for the autonomous learning of smooth pursuit eye ...
International audienceDuring eye tracking of a self-moved target, human subjects' performance differ...
Smooth pursuit is one of the five main eye movements in humans, consisting of tracking a steadily mo...
Smooth pursuit eye movements are used to maintain gaze on moving targets. In order to overcome proc...
A predictive component can contribute to the command signal for smooth pursuit. This is readily demo...
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 ...
Humans are able to track a moving visual target by generating voluntary smooth pursuit eye movements...
The brain makes use of noisy sensory inputs to produce eye, head, or arm motion. In most instances, ...
For a learned movement to be effective, it must be produced at the appropriate time, but how this is...
International audiencePrimates (including humans) heavily rely on the efficiency of their visual sys...
International audiencePrimates heavily rely on their visual system, which exploits signals of graded...
Abstract The smooth pursuit system has the ability to perform predictive feedforward control of eye ...
In this paper, we propose a biologically-plausible model to explain the emergence of motion tracking...
In order to grasp an object in their visual field, humans orient their visual axis to targets of int...
International audienceThis paper presents a model for the autonomous learning of smooth pursuit eye ...
International audienceDuring eye tracking of a self-moved target, human subjects' performance differ...