A mechanistic account of value computation in the human brain |
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Authors: | Marios G. Philiastides Guido Biele Hauke R. Heekeren |
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Affiliation: | aMax Planck Institute for Human Development, 14195 Berlin, Germany;;bMax Planck Institute for Human Cognitive and Brain Sciences, 04303 Leipzig, Germany; and;cDepartment of Education and Psychology, Freie Universität Berlin, 14195 Berlin, Germany |
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Abstract: | To make decisions based on the value of different options, we often have to combine different sources of probabilistic evidence. For example, when shopping for strawberries on a fruit stand, one uses their color and size to infer—with some uncertainty—which strawberries taste best. Despite much progress in understanding the neural underpinnings of value-based decision making in humans, it remains unclear how the brain represents different sources of probabilistic evidence and how they are used to compute value signals needed to drive the decision. Here, we use a visual probabilistic categorization task to show that regions in ventral temporal cortex encode probabilistic evidence for different decision alternatives, while ventromedial prefrontal cortex integrates information from these regions into a value signal using a difference-based comparator operation. |
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Keywords: | decision making probabilistic evidence value difference comparator functional MRI |
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