Operant learning requires that reinforcement signals interact with action representations at a suitable neural interface. Much evidence suggests that this occurs when phasic dopamine, acting as a reinforcement prediction error, gates plasticity at cortico-striatal synapses, and thereby changes the future likelihood of selecting the action(s) coded by striatal neurons. But this hypothesis faces serious challenges. First, cortico-striatal plasticity is inexplicably complex, depending on spike timing, dopamine level, and dopamine receptor type. Second, there is a credit assignment problem—action selection signals occur long before the consequent dopamine reinforcement signal. Third, the two types of striatal output neuron have apparently oppos...
Action discovery is the cognitive process of learning new actions to achieve desirable outcomes in t...
Neural computational accounts of reward-learning have been dominated by the hypothesis that dopamine...
Cortico-basal-ganglia-thalamic (CBGT) networks are critical for adaptive decision-making, yet how ch...
<div><p>Operant learning requires that reinforcement signals interact with action representations at...
Operant learning requires that reinforcement signals interact with action representations at a suita...
Abstract The reinforcement learning hypothesis of dopa-mine function predicts that dopamine acts as ...
We recently proposed that short-latency, sensory-evoked dopamine release is critical for learning ac...
The basal ganglia (BG), and more specifically the striatum, have long been proposed to play an essen...
The basal ganglia network is thought to be involved in adaptation oforganism's behavior when facing ...
Abstract Organisms are able to learn from reward and punishment to cope with unknown situations, in ...
Plasticity at synapses between the cortex and striatum is considered critical for learning novel act...
In this work, we introduce a spiking actor-critic network model of learning from both reward and pun...
Background: Regional changes in corticostriatal transmission induced by phasic dopaminergic signals ...
The basal ganglia (BG), and more specifically the striatum, have long been proposed to play an essen...
Value-based action selection has been suggested to be realized in the corticostriatal local circuits...
Action discovery is the cognitive process of learning new actions to achieve desirable outcomes in t...
Neural computational accounts of reward-learning have been dominated by the hypothesis that dopamine...
Cortico-basal-ganglia-thalamic (CBGT) networks are critical for adaptive decision-making, yet how ch...
<div><p>Operant learning requires that reinforcement signals interact with action representations at...
Operant learning requires that reinforcement signals interact with action representations at a suita...
Abstract The reinforcement learning hypothesis of dopa-mine function predicts that dopamine acts as ...
We recently proposed that short-latency, sensory-evoked dopamine release is critical for learning ac...
The basal ganglia (BG), and more specifically the striatum, have long been proposed to play an essen...
The basal ganglia network is thought to be involved in adaptation oforganism's behavior when facing ...
Abstract Organisms are able to learn from reward and punishment to cope with unknown situations, in ...
Plasticity at synapses between the cortex and striatum is considered critical for learning novel act...
In this work, we introduce a spiking actor-critic network model of learning from both reward and pun...
Background: Regional changes in corticostriatal transmission induced by phasic dopaminergic signals ...
The basal ganglia (BG), and more specifically the striatum, have long been proposed to play an essen...
Value-based action selection has been suggested to be realized in the corticostriatal local circuits...
Action discovery is the cognitive process of learning new actions to achieve desirable outcomes in t...
Neural computational accounts of reward-learning have been dominated by the hypothesis that dopamine...
Cortico-basal-ganglia-thalamic (CBGT) networks are critical for adaptive decision-making, yet how ch...