The learning of stimulus-outcome associations allows for predictions about the environment. Ventral striatum and dopaminergic midbrain neurons form a larger network for generating reward prediction signals from sensory cues. Yet, the network plasticity mechanisms to generate predictive signals in these distributed circuits have not been entirely clarified. Also, direct evidence of the underlying interregional assembly formation and information transfer is still missing. Here we show that phasic dopamine is sufficient to reinforce the distinctness of stimulus representations in the ventral striatum even in the absence of reward. Upon such reinforcement, striatal stimulus encoding gives rise to interregional assemblies that drive dopaminergic...
Midbrain dopamine neurons respond to reward-predictive stimuli. In the natural environment reward-pr...
Neural correlates of reward prediction errors (RPEs) have been found in dorsal striatum. Such signal...
Here, we introduce a spiking actor-critic network model of learning from both reward and punishment ...
The learning of stimulus-outcome associations allows for predictions about the environment. Ventral ...
Identifying the circuits responsible for cognition and understanding their embedded computations is ...
It has been suggested that the midbrain dopamine (DA) neurons, receiving inputs from the cortico-bas...
Predicting outcomes is a critical ability of humans and animals. The dopamine reward prediction erro...
Predictions help guide learning. As we encounter objects in our environment, we make predictions abo...
Physiologic studies revealed that neurons in the dopaminergic midbrain of non-human primates encode ...
Situations where rewards are unexpectedly obtained or withheld represent opportunities for new learn...
Environmental cues, through Pavlovian learning, become conditioned stimuli that guide animals toward...
Before choosing, it helps to know both the expected value signaled by a predictive cue and the assoc...
Midbrain dopamine neurons encode reward prediction errors. In this issue of Neuron, Takahashi et al....
Abstract The reinforcement learning hypothesis of dopa-mine function predicts that dopamine acts as ...
Dopamine is thought to regulate learning from appetitive and aversive events. Here we examined how o...
Midbrain dopamine neurons respond to reward-predictive stimuli. In the natural environment reward-pr...
Neural correlates of reward prediction errors (RPEs) have been found in dorsal striatum. Such signal...
Here, we introduce a spiking actor-critic network model of learning from both reward and punishment ...
The learning of stimulus-outcome associations allows for predictions about the environment. Ventral ...
Identifying the circuits responsible for cognition and understanding their embedded computations is ...
It has been suggested that the midbrain dopamine (DA) neurons, receiving inputs from the cortico-bas...
Predicting outcomes is a critical ability of humans and animals. The dopamine reward prediction erro...
Predictions help guide learning. As we encounter objects in our environment, we make predictions abo...
Physiologic studies revealed that neurons in the dopaminergic midbrain of non-human primates encode ...
Situations where rewards are unexpectedly obtained or withheld represent opportunities for new learn...
Environmental cues, through Pavlovian learning, become conditioned stimuli that guide animals toward...
Before choosing, it helps to know both the expected value signaled by a predictive cue and the assoc...
Midbrain dopamine neurons encode reward prediction errors. In this issue of Neuron, Takahashi et al....
Abstract The reinforcement learning hypothesis of dopa-mine function predicts that dopamine acts as ...
Dopamine is thought to regulate learning from appetitive and aversive events. Here we examined how o...
Midbrain dopamine neurons respond to reward-predictive stimuli. In the natural environment reward-pr...
Neural correlates of reward prediction errors (RPEs) have been found in dorsal striatum. Such signal...
Here, we introduce a spiking actor-critic network model of learning from both reward and punishment ...