Saccades are fast eye movements that allow humans and robots to bring the visual target in the center of the visual field. Saccades are open loop with respect to the vision system, thus their execution require a precise knowledge of the internal model of the oculomotor system. In this work, we modeled the saccade control, taking inspiration from the recurrent loops between the cerebellum and the brainstem. In this model, the brainstem acts as a fixed-inverse model of the oculomotor system, while the cerebellum acts as an adaptive element that learns the internal model of the oculomotor system. The adaptive filter is implemented using a state-of-the-art neural network, called I-SSGPR. The proposed approach, namely recurrent architecture, was...
In this paper, a model of cerebellar function is implemented and evaluated in the control of a robot...
Multiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements. This i...
: Saccadic eye-movements play a crucial role in visuo-motor control by allowing rapid foveation onto...
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...
The cerebellum is essential for motor learning and adaptation since it can change the relationship b...
Cerebellar synaptic plasticity is vital for adaptability and fine tuning of goal-directed movements....
Recent electrophysiological observations related to saccadic eye movements in rhesus monkeys, sugges...
International audienceIn this paper we investigated the relevance of a robotic implementation in the...
As we navigate through the world in our lifetime, our brains constantly adjust our movements to ensu...
The primary aims of this research were to gain insight into control architectures of the mammalian b...
AbstractMultiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements...
In this paper, a model of cerebellar function is implemented and evaluated in the control of a robot...
Multiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements. This i...
: Saccadic eye-movements play a crucial role in visuo-motor control by allowing rapid foveation onto...
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...
The cerebellum is essential for motor learning and adaptation since it can change the relationship b...
Cerebellar synaptic plasticity is vital for adaptability and fine tuning of goal-directed movements....
Recent electrophysiological observations related to saccadic eye movements in rhesus monkeys, sugges...
International audienceIn this paper we investigated the relevance of a robotic implementation in the...
As we navigate through the world in our lifetime, our brains constantly adjust our movements to ensu...
The primary aims of this research were to gain insight into control architectures of the mammalian b...
AbstractMultiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements...
In this paper, a model of cerebellar function is implemented and evaluated in the control of a robot...
Multiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements. This i...
: Saccadic eye-movements play a crucial role in visuo-motor control by allowing rapid foveation onto...