SummaryComplex cognitive processes require sophisticated local processing but also interactions between distant brain regions. It is therefore critical to be able to study distant interactions between local computations and the neural representations they act on. Here we report two anatomically and computationally distinct learning signals in lateral orbitofrontal cortex (lOFC) and the dopaminergic ventral midbrain (VM) that predict trial-by-trial changes to a basic internal model in hippocampus. To measure local computations during learning and their interaction with neural representations, we coupled computational fMRI with trial-by-trial fMRI suppression. We find that suppression in a medial temporal lobe network changes trial-by-trial i...
A dominant focus in studies of learning and decision-making is the neural coding of scalar reward va...
Item does not contain fulltextMemories are thought to be retrieved by attractor dynamics if a given ...
Adaptive reward-related decision making requires accurate prospective consideration of the specific ...
Complex cognitive processes require sophisticated local processing but also interactions between dis...
Complex cognitive processes require sophisticated local processing but also interactions between dis...
SummaryComplex cognitive processes require sophisticated local processing but also interactions betw...
ABSTRACT: Temporal difference learning (TD) is a popular algorithm in machine learning. Two learning...
How do we use our memories of the past to guide decisions we’ve never had to make before? Although e...
Mounting evidence suggests that the medial temporal lobe (MTL) and striatal learning systems support...
Shared neuronal variability has been shown to modulate cognitive processing. However, the relationsh...
The orbitofrontal cortex has long been implicated in associative learning. Early work by Mishkin and...
Temporal difference learning (TD) is a popular algorithm in machine learning. Two learning signals t...
Computational models of the hippocampal region link psychological theories of associative learning w...
Avoiding repeated mistakes and learning to reinforce rewarding decisions is critical for human survi...
The hippocampus, well known for its role in episodic memory, might also be an important brain region...
A dominant focus in studies of learning and decision-making is the neural coding of scalar reward va...
Item does not contain fulltextMemories are thought to be retrieved by attractor dynamics if a given ...
Adaptive reward-related decision making requires accurate prospective consideration of the specific ...
Complex cognitive processes require sophisticated local processing but also interactions between dis...
Complex cognitive processes require sophisticated local processing but also interactions between dis...
SummaryComplex cognitive processes require sophisticated local processing but also interactions betw...
ABSTRACT: Temporal difference learning (TD) is a popular algorithm in machine learning. Two learning...
How do we use our memories of the past to guide decisions we’ve never had to make before? Although e...
Mounting evidence suggests that the medial temporal lobe (MTL) and striatal learning systems support...
Shared neuronal variability has been shown to modulate cognitive processing. However, the relationsh...
The orbitofrontal cortex has long been implicated in associative learning. Early work by Mishkin and...
Temporal difference learning (TD) is a popular algorithm in machine learning. Two learning signals t...
Computational models of the hippocampal region link psychological theories of associative learning w...
Avoiding repeated mistakes and learning to reinforce rewarding decisions is critical for human survi...
The hippocampus, well known for its role in episodic memory, might also be an important brain region...
A dominant focus in studies of learning and decision-making is the neural coding of scalar reward va...
Item does not contain fulltextMemories are thought to be retrieved by attractor dynamics if a given ...
Adaptive reward-related decision making requires accurate prospective consideration of the specific ...