The cerebellum, which is responsible for motor control and learning, has been suggested to act as a Smith predictor for compensation of time-delays by means of internal forward models. However, insights about how forward model predictions are integrated in the Smith predictor have not yet been unveiled. To fill this gap, a novel bio-inspired modular control architecture that merges a recurrent cerebellar-like loop for adaptive control and a Smith predictor controller is proposed. The goal is to provide accurate anticipatory corrections to the generation of the motor commands in spite of sensory delays and to validate the robustness of the proposed control method to input and physical dynamic changes. The outcome of the proposed architecture...
Motor adaptation to perturbations is provided by learning mechanisms operating in the cerebellum and...
Humans display anticipatory motor responses to minimize the adverse effects of predictable perturbat...
The cerebellum is involved in a large number of different neural processes, especially in associativ...
The cerebellum, which is responsible for motor control and learning, has been suggested to act as a ...
The cerebellum is a crucial brain structure in enabling precise motor control in animals. Recent adv...
Animals excel in skilled motor behavior, especially when compared to arti cial systems. Several ada...
From the dawn of modern neural network theory, the mammalian cerebellum has been a favored object of...
Biological control systems have long been studied as possible inspiration for the construction of ro...
Motor adaptation to perturbations is provided by learning mechanisms operating in the cerebellum and...
Cerebellar function is increasingly discussed in terms of engineering schemes for motor control and ...
Although considerable progress has been made in developing models of cerebellar function in sensorim...
We present a learning cerebellar model to control reaching movements of a simulated biomimetic manip...
The cerebellum is involved in a large number of different neural processes, especially in associativ...
The cerebellum plays a crucial role in motor learning and it acts as a predictive controller. Modeli...
Marr–Albus adaptive filter models of the cerebellum have been applied successfully to a range of s...
Motor adaptation to perturbations is provided by learning mechanisms operating in the cerebellum and...
Humans display anticipatory motor responses to minimize the adverse effects of predictable perturbat...
The cerebellum is involved in a large number of different neural processes, especially in associativ...
The cerebellum, which is responsible for motor control and learning, has been suggested to act as a ...
The cerebellum is a crucial brain structure in enabling precise motor control in animals. Recent adv...
Animals excel in skilled motor behavior, especially when compared to arti cial systems. Several ada...
From the dawn of modern neural network theory, the mammalian cerebellum has been a favored object of...
Biological control systems have long been studied as possible inspiration for the construction of ro...
Motor adaptation to perturbations is provided by learning mechanisms operating in the cerebellum and...
Cerebellar function is increasingly discussed in terms of engineering schemes for motor control and ...
Although considerable progress has been made in developing models of cerebellar function in sensorim...
We present a learning cerebellar model to control reaching movements of a simulated biomimetic manip...
The cerebellum is involved in a large number of different neural processes, especially in associativ...
The cerebellum plays a crucial role in motor learning and it acts as a predictive controller. Modeli...
Marr–Albus adaptive filter models of the cerebellum have been applied successfully to a range of s...
Motor adaptation to perturbations is provided by learning mechanisms operating in the cerebellum and...
Humans display anticipatory motor responses to minimize the adverse effects of predictable perturbat...
The cerebellum is involved in a large number of different neural processes, especially in associativ...