<div><p>We constantly look for patterns in the environment that allow us to learn its key regularities. These regularities are fundamental in enabling us to make predictions about what is likely to happen next. The physiological study of regularity extraction has focused primarily on repetitive sequence-based rules within the sensory environment, or on stimulus-outcome associations in the context of reward-based decision-making. Here we ask whether we implicitly encode non-sequential stochastic regularities, and detect violations therein. We addressed this question using a novel experimental design and both behavioural and magnetoencephalographic (MEG) metrics associated with responses to pure-tone sounds with frequencies sampled from a Gau...
Statistical learning refers to the implicit mechanism of extracting regularities in our environment....
Computational and experimental research has revealed that auditory sensory predictions are derived f...
Electrophysiological sensory deviance detection signals, such as the mismatch negativity (MMN), have...
We constantly look for patterns in the environment that allow us to learn its key regularities. Thes...
We constantly look for patterns in the environment that allow us to learn its key regularities. Thes...
We constantly look for patterns in the environment that allow us to learn its key regularities. Thes...
The ability to learn about regularities in the environment and to make predictions about future even...
Our ability to parse our acoustic environment relies on the brain's capacity to extract statistical ...
Recent computational models of perception conceptualize auditory oddball responses as signatures of ...
International audienceRecent computational models of perception conceptualize auditory oddball respo...
As listeners we tend to detect patterns in what we hear regardless of whether this is music, languag...
This thesis uses specifically structured sound sequences, with electroencephalography (EEG) recordin...
<div><p>Computational and experimental research has revealed that auditory sensory predictions are d...
Background: The human auditory cortex automatically encodes acoustic input from the environment and ...
The brain draws on knowledge of statistical structure in the environment to facilitate detection of ...
Statistical learning refers to the implicit mechanism of extracting regularities in our environment....
Computational and experimental research has revealed that auditory sensory predictions are derived f...
Electrophysiological sensory deviance detection signals, such as the mismatch negativity (MMN), have...
We constantly look for patterns in the environment that allow us to learn its key regularities. Thes...
We constantly look for patterns in the environment that allow us to learn its key regularities. Thes...
We constantly look for patterns in the environment that allow us to learn its key regularities. Thes...
The ability to learn about regularities in the environment and to make predictions about future even...
Our ability to parse our acoustic environment relies on the brain's capacity to extract statistical ...
Recent computational models of perception conceptualize auditory oddball responses as signatures of ...
International audienceRecent computational models of perception conceptualize auditory oddball respo...
As listeners we tend to detect patterns in what we hear regardless of whether this is music, languag...
This thesis uses specifically structured sound sequences, with electroencephalography (EEG) recordin...
<div><p>Computational and experimental research has revealed that auditory sensory predictions are d...
Background: The human auditory cortex automatically encodes acoustic input from the environment and ...
The brain draws on knowledge of statistical structure in the environment to facilitate detection of ...
Statistical learning refers to the implicit mechanism of extracting regularities in our environment....
Computational and experimental research has revealed that auditory sensory predictions are derived f...
Electrophysiological sensory deviance detection signals, such as the mismatch negativity (MMN), have...