The brain is inherently proactive, constantly predicting the when (moment) and what (content) of future input in order to optimize information processing. Previous research on such predictions has mainly studied the ‘when’ or ‘what’ domain separately, missing to investigate the potential integration of both types of predictive information. In the absence of such integration, temporal cues are assumed to enhance any upcoming content at the predicted moment in time (general temporal predictor). However, if the when and what prediction domain were integrated, a much more flexible neural mechanism may be proposed in which temporal-feature interactions would allow for the creation of multiple concurrent time-content predictions (parallel time-co...
Temporal structure in the environment often has predictive value for anticipating the occurrence of ...
A fundamental principle of brain function is the use of temporal regularities to predict the timing ...
The predictable rhythmic structure is important to most ecologically relevant sounds for humans, suc...
The brain is inherently proactive, constantly predicting the when (moment) and what (content) of fut...
Extracting regularities from ongoing stimulus streams to form predictions is crucialfor adaptive beh...
To form a coherent percept of the environment, the brain needs to bind sensory signals emanating fro...
International audienceNeuronal oscillations are comprised of rhythmic fluctuations of excitability t...
Predicting the timing of incoming information allows the brain to optimize information processing in...
Employing predictions based on environmental regularities is fundamental for adaptive behaviour. Whi...
Using predictions based on environmental regularities is fundamental for adaptive behavior. While it...
Item does not contain fulltextBeing able to anticipate events before they happen facilitates stimulu...
During perception, information is not uniformly distributed over time; some time-points are more inf...
Predicting the timing of upcoming events enables efficient resource allocation and action preparatio...
The ability to generate temporal predictions is fundamental for adap-tive behavior. Precise timing a...
International audienceIn behavior, action and perception are inherently interdependent. However, the...
Temporal structure in the environment often has predictive value for anticipating the occurrence of ...
A fundamental principle of brain function is the use of temporal regularities to predict the timing ...
The predictable rhythmic structure is important to most ecologically relevant sounds for humans, suc...
The brain is inherently proactive, constantly predicting the when (moment) and what (content) of fut...
Extracting regularities from ongoing stimulus streams to form predictions is crucialfor adaptive beh...
To form a coherent percept of the environment, the brain needs to bind sensory signals emanating fro...
International audienceNeuronal oscillations are comprised of rhythmic fluctuations of excitability t...
Predicting the timing of incoming information allows the brain to optimize information processing in...
Employing predictions based on environmental regularities is fundamental for adaptive behaviour. Whi...
Using predictions based on environmental regularities is fundamental for adaptive behavior. While it...
Item does not contain fulltextBeing able to anticipate events before they happen facilitates stimulu...
During perception, information is not uniformly distributed over time; some time-points are more inf...
Predicting the timing of upcoming events enables efficient resource allocation and action preparatio...
The ability to generate temporal predictions is fundamental for adap-tive behavior. Precise timing a...
International audienceIn behavior, action and perception are inherently interdependent. However, the...
Temporal structure in the environment often has predictive value for anticipating the occurrence of ...
A fundamental principle of brain function is the use of temporal regularities to predict the timing ...
The predictable rhythmic structure is important to most ecologically relevant sounds for humans, suc...