2016
DOI: 10.1101/064741
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A causal role for right frontopolar cortex in directed, but not random, exploration

Abstract: The explore-exploit dilemma occurs anytime we must choose between exploring unknown options for information and exploiting known resources for reward. Previous work suggests that people use two different strategies to solve the explore-exploit dilemma: directed exploration, driven by information seeking, and random exploration, driven by decision noise. Here, we show that these two strategies rely on different neural systems. Using transcranial magnetic stimulation to inhibit the right frontopolar cortex, we w… Show more

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Cited by 34 publications
(65 citation statements)
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“…As expected from the formal analysis, dopamine was found to specifically control the exploration parameter β (inverse temperature) which represents undirected exploration or random noise in the choice process converting values to actions [27], [31], [32], rather than directed exploration driven by uncertainty [5], [25], [26], [28].…”
Section: Discussionmentioning
confidence: 99%
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“…As expected from the formal analysis, dopamine was found to specifically control the exploration parameter β (inverse temperature) which represents undirected exploration or random noise in the choice process converting values to actions [27], [31], [32], rather than directed exploration driven by uncertainty [5], [25], [26], [28].…”
Section: Discussionmentioning
confidence: 99%
“…Because dopamine is one of the key factors that may encode success or uncertainty, it might modulate decisions by biasing them toward options that present the largest uncertainty [25], [26]. This would correspond to a "directed" exploration strategy [5], [27], [28]. Alternatively, success and failure could affect tonic dopamine levels and control random exploration of all options, as recently proposed by Humphries et al (2012) [29].…”
Section: Introductionmentioning
confidence: 99%
“…Some of their applications involve modeling individual differences assuming participants are not completely independent (Pratte & Rouder, 2011), and predicting behavior of a new participant based on information of the population (Lee, 2018;Shiffrin et al, 2008). One simple way to express a hierarchy, is to set Gaussian distributions from which parameters are generated (Matzke, Dolan, Batchelder, & Wagenmakers, 2015;Zajkowski et al, 2017). Figure 3 is a graphical representation of this model.…”
Section: Hierarchical Delta-rule With Velocity Term (Hvd)mentioning
confidence: 99%
“…Some of their applications involve modeling individual differences assuming participants are not completely independent (Pratte & Rouder, 2011), and predicting behavior of a new subject based on the information of the population (Lee, 2018;Shiffrin et al, 2008). As it is frequently done given its simple interpretation for variability (Lee, 2018;Matzke, Dolan, Batchelder, & Wagenmakers, 2015;Zajkowski et al, 2017), we assumed that the higher-order distributions were Gaussian. Importantly, these distributions were set at the level of conditions implying that what is Standard delta-rule (SD).…”
Section: Learning Modelsmentioning
confidence: 99%
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