Our brains constantly generate predictions of sensory input that are compared with actual inputs, propagate the prediction-errors through a hierarchy of brain regions, and subsequently update the internal predictions of the world. However, the essential feature of predictive coding, the notion of hierarchical depth and its neural mechanisms, remains largely unexplored. Here, we investigated the hierarchical depth of predictive auditory processing by combining functional magnetic resonance imaging (fMRI) and high-density whole-brain electrocorticography (ECoG) in marmoset monkeys during an auditory local-global paradigm in which the temporal regularities of the stimuli were designed at two hierarchical levels. The prediction-errors and predi...
Thesis: Ph. D. in Neuroscience, Massachusetts Institute of Technology, Department of Brain and Cogni...
Predictive processing, a leading theoretical framework for sensory processing, suggests that the bra...
SummaryThe ability to extract deep structures from auditory sequences is a fundamental prerequisite ...
Can monkeys learn simple auditory sequences and detect when a new sequence deviates from the stored ...
Sensory systems must account for both contextual factors and prior experience to adaptively engage w...
International audienceAccording to hierarchical predictive coding models, the cortex constantly gene...
Brain function can be conceived as a hierarchy of generative models that optimizes predictions of se...
Perception is characterized by a reciprocal exchange of predictions and prediction error signals bet...
Brain function can be conceived as a hierarchy of generative models that optimizes predictions of se...
Auditory inputs reaching our ears are often incomplete, but our brains nevertheless transform them i...
An important question concerning inter-areal communication in the cortex is whether these interactio...
In Bayesian brain theories, hierarchically related prediction errors (PEs) play a central role for p...
In early stages of auditory processing, neurons faithfully encode acoustic features of sounds. As we...
According to the theory of predictive coding, the brain does not generate sensations simply by ’spon...
We propose that sensory inputs are processed in terms of optimised predictions and prediction error ...
Thesis: Ph. D. in Neuroscience, Massachusetts Institute of Technology, Department of Brain and Cogni...
Predictive processing, a leading theoretical framework for sensory processing, suggests that the bra...
SummaryThe ability to extract deep structures from auditory sequences is a fundamental prerequisite ...
Can monkeys learn simple auditory sequences and detect when a new sequence deviates from the stored ...
Sensory systems must account for both contextual factors and prior experience to adaptively engage w...
International audienceAccording to hierarchical predictive coding models, the cortex constantly gene...
Brain function can be conceived as a hierarchy of generative models that optimizes predictions of se...
Perception is characterized by a reciprocal exchange of predictions and prediction error signals bet...
Brain function can be conceived as a hierarchy of generative models that optimizes predictions of se...
Auditory inputs reaching our ears are often incomplete, but our brains nevertheless transform them i...
An important question concerning inter-areal communication in the cortex is whether these interactio...
In Bayesian brain theories, hierarchically related prediction errors (PEs) play a central role for p...
In early stages of auditory processing, neurons faithfully encode acoustic features of sounds. As we...
According to the theory of predictive coding, the brain does not generate sensations simply by ’spon...
We propose that sensory inputs are processed in terms of optimised predictions and prediction error ...
Thesis: Ph. D. in Neuroscience, Massachusetts Institute of Technology, Department of Brain and Cogni...
Predictive processing, a leading theoretical framework for sensory processing, suggests that the bra...
SummaryThe ability to extract deep structures from auditory sequences is a fundamental prerequisite ...