Active eye movements can be exploited to build a visuomotor representation of the surrounding environment. Maintaining and improving such representation requires to update the internal model involved in the generation of eye movements. From this perspective, action and perception are thus tightly coupled and interdependent. In this work, we encoded the internal model for oculomotor control with an adaptive filter inspired by the functionality of the cerebellum. Recurrent loops between a feed-back controller and the internal model allow our system to perform accurate binocular saccades and create an implicit representation of the nearby space. Simulation results show that this recurrent architecture outperforms classical feedback-error-learn...
Multiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements. This i...
AbstractThis paper describes a neural network model that directs saccades back to targets after they...
The cerebellum is essential for motor learning and adaptation since it can change the relationship b...
Active eye movements can be exploited to build a visuomotor representation of the surrounding enviro...
Active eye movements can be exploited to build a visuomotor representation of the surrounding enviro...
Saccades are fast eye movements that allow humans and robots to bring the visual target in the cente...
Plasticity in the oculomotor system ensures that saccadic eye movements reliably meet their visual g...
ABSTRACT: How does the brain tell the eye where to go? Classical models of rapid eye movements are l...
The primary aims of this research were to gain insight into control architectures of the mammalian b...
The cerebellum implements error-based motor learning via synaptic gain adaptation of an inverse mode...
AbstractMultiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements...
Cerebellar synaptic plasticity is vital for adaptability and fine tuning of goal-directed movements....
In this paper, a model of cerebellar function is implemented and evaluated in the control of a robot...
This thesis presents an application of control-theoretic modelling with adaptive internal models to ...
The cerebellum implements error-based motor learning via synaptic gain adaptation of an inverse mode...
Multiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements. This i...
AbstractThis paper describes a neural network model that directs saccades back to targets after they...
The cerebellum is essential for motor learning and adaptation since it can change the relationship b...
Active eye movements can be exploited to build a visuomotor representation of the surrounding enviro...
Active eye movements can be exploited to build a visuomotor representation of the surrounding enviro...
Saccades are fast eye movements that allow humans and robots to bring the visual target in the cente...
Plasticity in the oculomotor system ensures that saccadic eye movements reliably meet their visual g...
ABSTRACT: How does the brain tell the eye where to go? Classical models of rapid eye movements are l...
The primary aims of this research were to gain insight into control architectures of the mammalian b...
The cerebellum implements error-based motor learning via synaptic gain adaptation of an inverse mode...
AbstractMultiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements...
Cerebellar synaptic plasticity is vital for adaptability and fine tuning of goal-directed movements....
In this paper, a model of cerebellar function is implemented and evaluated in the control of a robot...
This thesis presents an application of control-theoretic modelling with adaptive internal models to ...
The cerebellum implements error-based motor learning via synaptic gain adaptation of an inverse mode...
Multiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements. This i...
AbstractThis paper describes a neural network model that directs saccades back to targets after they...
The cerebellum is essential for motor learning and adaptation since it can change the relationship b...