2007
DOI: 10.1038/nn2013
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Dopamine neurons encode the better option in rats deciding between differently delayed or sized rewards

Abstract: The dopamine system is thought to be involved in making decisions about reward. Here we recorded from the ventral tegmental area in rats learning to choose between differently delayed and sized rewards. As expected, the activity of many putative dopamine neurons reflected reward prediction errors, changing when the value of the reward increased or decreased unexpectedly. During learning, neural responses to reward in these neurons waned and responses to cues that predicted reward emerged. Notably, this cue-evo… Show more

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Cited by 537 publications
(610 citation statements)
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“…The phasic activation in response to CSs is independent of the sensory modality of the conditioned stimuli and increases with predicted reward magnitude (Bayer and Glimcher, 2005;Roesch et al, 2007;Tobler et al, 2005) and probability (Enomoto et al, 2011;Fiorillo et al, 2003;Morris et al, 2006;Nakahara et al, 2004;Satoh et al, 2003). This is again in line with the theoretical formulation as the expected value increases with the size of the reward and its probability.…”
Section: Phasic Dopamine Signals Represent Model-free Prediction Errorssupporting
confidence: 77%
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“…The phasic activation in response to CSs is independent of the sensory modality of the conditioned stimuli and increases with predicted reward magnitude (Bayer and Glimcher, 2005;Roesch et al, 2007;Tobler et al, 2005) and probability (Enomoto et al, 2011;Fiorillo et al, 2003;Morris et al, 2006;Nakahara et al, 2004;Satoh et al, 2003). This is again in line with the theoretical formulation as the expected value increases with the size of the reward and its probability.…”
Section: Phasic Dopamine Signals Represent Model-free Prediction Errorssupporting
confidence: 77%
“…This is again in line with the theoretical formulation as the expected value increases with the size of the reward and its probability. Furthermore, the longer the delay between the CS and the reward, the weaker the response (Fiorillo et al, 2008;Kobayashi and Schultz, 2008;Roesch et al, 2007), reflecting temporal discounting of future rewards. Finally, if a reward-predicting stimulus is itself preceded by another, earlier, stimulus, then the phasic activation of dopamine neurons transfers back to this earlier stimulus (Schultz et al, 1993), which is again captured by the above theoretical account (Montague et al, 1996) of model-free learning.…”
Section: Phasic Dopamine Signals Represent Model-free Prediction Errorsmentioning
confidence: 99%
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“…We make the common assumption that critic values are represented in ventral striatum and that phasic signals of dopamine convey the critic prediction error (Dayan & Daw, 2008;Montague et al, 1996;Roesch, Calu, & Schoenbaum, 2007). Actor learning.…”
Section: Opal Model Descriptionmentioning
confidence: 99%
“…It depends on the combined actor weight Act a , that is the weighted difference 1 This could be a single state s, or a state-action pair (s, a), following indications that prediction error could correspond to state-action prediction errors (Morris, Nevet, Arkadir, Vaadia, & Bergman, 2006;Roesch, Calu, & Schoenbaum, 2007).…”
Section: Opal Model Descriptionmentioning
confidence: 99%