International audiencen a previous modeling study, Leblois et al. (2006) demonstrated an action selection mechanism in cortico-basal ganglia loops based on competition between the positive feedback, direct pathway through the striatum and the negative feedback, hyperdirect pathway through the subthalamic nucleus. The present study investigates how multiple level action selection could be performed by the basal ganglia. To do this, the model is extended in a manner consistent with known anatomy and electrophysiology in three main areas. First, two-level decision making has been incorporated, with a cognitive level selecting based on cue shape and a motor level selecting based on cue position. We show that the decision made at the cognitive l...
We perceive the environment via sensor arrays and interact with it through motor outputs. The work o...
According to a prominent view of sensorimotor processing in primates, selection and specification of...
Cortico-basal-ganglia-thalamic (CBGT) networks are critical for adaptive decision-making, yet how ch...
International audiencen a previous modeling study, Leblois et al. (2006) demonstrated an action sele...
International audienceThe mechanisms of decision making are generally thought to be under the contro...
Item does not contain fulltextThe mechanisms of decision-making and action selection are generally t...
The basal ganglia (BG) are a subcortical structure implicated in action selection. The aim of this w...
International audienceThe mechanisms of decision-making are generally thought to be under the contro...
International audienceA reference implementation of "Interaction between cognitive and motor cortico...
The basal ganglia (BG) is a collection of nuclei located deep beneath the cerebral cortex that is in...
How the brain selects one action among multiple alternatives is a central question of neuroscience. ...
Human modern life entails the need to make many abstract, deliberative decisions such as selecting a...
The basal ganglia are a dynamic neural network of telencephalic subcortical nuclei, involved in adap...
Neurophysiological studies have identified a number of brain regions critically involved in solving ...
International audienceDescribing cognition as cooperating learning mechanisms [1] is a fruitful way ...
We perceive the environment via sensor arrays and interact with it through motor outputs. The work o...
According to a prominent view of sensorimotor processing in primates, selection and specification of...
Cortico-basal-ganglia-thalamic (CBGT) networks are critical for adaptive decision-making, yet how ch...
International audiencen a previous modeling study, Leblois et al. (2006) demonstrated an action sele...
International audienceThe mechanisms of decision making are generally thought to be under the contro...
Item does not contain fulltextThe mechanisms of decision-making and action selection are generally t...
The basal ganglia (BG) are a subcortical structure implicated in action selection. The aim of this w...
International audienceThe mechanisms of decision-making are generally thought to be under the contro...
International audienceA reference implementation of "Interaction between cognitive and motor cortico...
The basal ganglia (BG) is a collection of nuclei located deep beneath the cerebral cortex that is in...
How the brain selects one action among multiple alternatives is a central question of neuroscience. ...
Human modern life entails the need to make many abstract, deliberative decisions such as selecting a...
The basal ganglia are a dynamic neural network of telencephalic subcortical nuclei, involved in adap...
Neurophysiological studies have identified a number of brain regions critically involved in solving ...
International audienceDescribing cognition as cooperating learning mechanisms [1] is a fruitful way ...
We perceive the environment via sensor arrays and interact with it through motor outputs. The work o...
According to a prominent view of sensorimotor processing in primates, selection and specification of...
Cortico-basal-ganglia-thalamic (CBGT) networks are critical for adaptive decision-making, yet how ch...