SummaryReward prediction error (RPE) signals are central to current models of reward-learning. Temporal difference (TD) learning models posit that these signals should be modulated by predictions, not only of magnitude but also timing of reward. Here we show that BOLD activity in the VTA conforms to such TD predictions: responses to unexpected rewards are modulated by a temporal hazard function and activity between a predictive stimulus and reward is depressed in proportion to predicted reward. By contrast, BOLD activity in ventral striatum (VS) does not reflect a TD RPE, but instead encodes a signal on the variable relevant for behavior, here timing but not magnitude of reward. The results have important implications for dopaminergic model...
It has been suggested that the midbrain dopamine (DA) neurons, receiving inputs from the cortico-bas...
An open problem in the field of computational neuroscience is how to link synaptic plasticity to sys...
Physiologic studies revealed that neurons in the dopaminergic midbrain of non-human primates encode ...
SummaryReward prediction error (RPE) signals are central to current models of reward-learning. Tempo...
It has been proposed that the striatum plays a crucial role in learning to select appropriate action...
AbstractTemporal difference learning has been proposed as a model for Pavlovian conditioning, in whi...
International audienceOne of the earliest attempts to understand how animals learn involved pairing ...
AbstractFunctional MRI experiments in human subjects strongly suggest that the striatum participates...
Midbrain dopamine neurons encode reward prediction errors. In this issue of Neuron, Takahashi et al....
According to a series of influential models, dopamine (DA) neurons sig-nal reward prediction error u...
This article focuses on recent modeling studies of dopamine neuron activity and their influence on b...
Neural activity in dopaminergic areas such as the ventral tegmental area is influenced by timing pro...
Midbrain dopamine neurons signal reward prediction error (RPE), or actual minus expected reward. The...
Recent work has advanced our knowledge of phasic dopamine reward prediction error signals. The error...
The Reward Prediction Error hypothesis proposes that phasic activity in the midbrain dopaminergic sy...
It has been suggested that the midbrain dopamine (DA) neurons, receiving inputs from the cortico-bas...
An open problem in the field of computational neuroscience is how to link synaptic plasticity to sys...
Physiologic studies revealed that neurons in the dopaminergic midbrain of non-human primates encode ...
SummaryReward prediction error (RPE) signals are central to current models of reward-learning. Tempo...
It has been proposed that the striatum plays a crucial role in learning to select appropriate action...
AbstractTemporal difference learning has been proposed as a model for Pavlovian conditioning, in whi...
International audienceOne of the earliest attempts to understand how animals learn involved pairing ...
AbstractFunctional MRI experiments in human subjects strongly suggest that the striatum participates...
Midbrain dopamine neurons encode reward prediction errors. In this issue of Neuron, Takahashi et al....
According to a series of influential models, dopamine (DA) neurons sig-nal reward prediction error u...
This article focuses on recent modeling studies of dopamine neuron activity and their influence on b...
Neural activity in dopaminergic areas such as the ventral tegmental area is influenced by timing pro...
Midbrain dopamine neurons signal reward prediction error (RPE), or actual minus expected reward. The...
Recent work has advanced our knowledge of phasic dopamine reward prediction error signals. The error...
The Reward Prediction Error hypothesis proposes that phasic activity in the midbrain dopaminergic sy...
It has been suggested that the midbrain dopamine (DA) neurons, receiving inputs from the cortico-bas...
An open problem in the field of computational neuroscience is how to link synaptic plasticity to sys...
Physiologic studies revealed that neurons in the dopaminergic midbrain of non-human primates encode ...