Substantial data support a temporal difference (TD) model of dopamine (DA) neuron activity in which the cells provide a global error signal for reinforcement learning. However, in certain circumstances, DA activity seems anomalous under the TD model, responding to non-rewarding stimuli. We address these anomalies by suggesting that DA cells multiplex information about reward bonuses, including Sutton\u27s exploration bonuses and Ng et al\u27s non-distorting shaping bonuses. We interpret this additional role for DA in terms of the unconditional attentional and psychomotor effects of dopamine, having the computational role of guiding exploration
The Reward Prediction Error hypothesis proposes that phasic activity in the midbrain dopaminergic sy...
An important issue of recent neuroscientific research is to understand the functional role of the ph...
SummaryPhasic increases and decreases in dopamine (DA) transmission encode reward prediction errors ...
Substantial data support a temporal difference (TD) model of dopamine (DA) neuron activity in which ...
In the temporal difference model of primate dopamine neurons, their phasic activity reports a predic...
Recent work has advanced our knowledge of phasic dopamine reward prediction error signals. The error...
Midbrain dopamine (DA) neurons are involved in the processing of rewards and reward-predicting stimu...
This article focuses on recent modeling studies of dopamine neuron activity and their influence on b...
In the temporal difference model of primate dopamine neurons, their phasic activity reports a predic...
In the temporal difference model of primate dopamine neurons, their phasic activity reports a predic...
This research was supported by a doctoral studentship to Luca Aquili from the UK Engineering and Phy...
AbstractMidbrain dopamine (DA) neurons are thought to encode reward prediction error. Reward predict...
Mesolimbic dopamine (DA) is phasically released during appetitive behaviors, though there is substan...
Temporal difference learning models propose phasic dopamine signaling encodes reward prediction erro...
SummaryBasic tenets of sensory processing emphasize the importance of accurate identification and di...
The Reward Prediction Error hypothesis proposes that phasic activity in the midbrain dopaminergic sy...
An important issue of recent neuroscientific research is to understand the functional role of the ph...
SummaryPhasic increases and decreases in dopamine (DA) transmission encode reward prediction errors ...
Substantial data support a temporal difference (TD) model of dopamine (DA) neuron activity in which ...
In the temporal difference model of primate dopamine neurons, their phasic activity reports a predic...
Recent work has advanced our knowledge of phasic dopamine reward prediction error signals. The error...
Midbrain dopamine (DA) neurons are involved in the processing of rewards and reward-predicting stimu...
This article focuses on recent modeling studies of dopamine neuron activity and their influence on b...
In the temporal difference model of primate dopamine neurons, their phasic activity reports a predic...
In the temporal difference model of primate dopamine neurons, their phasic activity reports a predic...
This research was supported by a doctoral studentship to Luca Aquili from the UK Engineering and Phy...
AbstractMidbrain dopamine (DA) neurons are thought to encode reward prediction error. Reward predict...
Mesolimbic dopamine (DA) is phasically released during appetitive behaviors, though there is substan...
Temporal difference learning models propose phasic dopamine signaling encodes reward prediction erro...
SummaryBasic tenets of sensory processing emphasize the importance of accurate identification and di...
The Reward Prediction Error hypothesis proposes that phasic activity in the midbrain dopaminergic sy...
An important issue of recent neuroscientific research is to understand the functional role of the ph...
SummaryPhasic increases and decreases in dopamine (DA) transmission encode reward prediction errors ...