To maintain a continuous and coherent percept over time, the brain makes use of past sensory information to anticipate forthcoming stimuli. We recently showed that auditory experience of the immediate past is propagated through ear-specific reverberations, manifested as rhythmic fluctuations of decision bias at alpha frequencies. Here, we apply the same time-resolved behavioural method to investigate how perceptual performance changes over time under conditions of stimulus expectation and to examine the effect of unexpected events on behaviour. As in our previous study, participants were required to discriminate the ear-of-origin of a brief monaural pure tone embedded in uncorrelated dichotic white noise. We manipulated stimulus expectation...
When sensory input conveys rhythmic regularity, we can form predictions about the timing of upcoming...
The predictive coding model of perception proposes that neuronal responses reflect prediction errors...
Forward predictions are not only crucial to predict somatosensory consequences of movements, but may...
To maintain a continuous and coherent percept over time, the brain makes use of past sensory informa...
Using novel behavioral methods, Ho et al. show that perceptual decisions in audition are rhythmicall...
Many behavioural measures of visual perception show continuous rhythmic fluctuations that reflect th...
Alignment of neural oscillations with temporally regular input allows listeners to generate temporal...
Predicting the timing of incoming information allows the brain to optimize information processing in...
The ability to generate temporal predictions is fundamental for adap-tive behavior. Precise timing a...
The predictable rhythmic structure is important to most ecologically relevant sounds for humans, suc...
Prior expectations have a powerful influence on perception, biasing both decision and confidence. Ho...
Dynamic brain states influence perceptual decision making, especially when the immediate sensory evi...
International audienceNeuronal oscillations are comprised of rhythmic fluctuations of excitability t...
Temporal structure in the environment often has predictive value for anticipating the occurrence of ...
Contains fulltext : 151734.pdf (publisher's version ) (Open Access)The neural resp...
When sensory input conveys rhythmic regularity, we can form predictions about the timing of upcoming...
The predictive coding model of perception proposes that neuronal responses reflect prediction errors...
Forward predictions are not only crucial to predict somatosensory consequences of movements, but may...
To maintain a continuous and coherent percept over time, the brain makes use of past sensory informa...
Using novel behavioral methods, Ho et al. show that perceptual decisions in audition are rhythmicall...
Many behavioural measures of visual perception show continuous rhythmic fluctuations that reflect th...
Alignment of neural oscillations with temporally regular input allows listeners to generate temporal...
Predicting the timing of incoming information allows the brain to optimize information processing in...
The ability to generate temporal predictions is fundamental for adap-tive behavior. Precise timing a...
The predictable rhythmic structure is important to most ecologically relevant sounds for humans, suc...
Prior expectations have a powerful influence on perception, biasing both decision and confidence. Ho...
Dynamic brain states influence perceptual decision making, especially when the immediate sensory evi...
International audienceNeuronal oscillations are comprised of rhythmic fluctuations of excitability t...
Temporal structure in the environment often has predictive value for anticipating the occurrence of ...
Contains fulltext : 151734.pdf (publisher's version ) (Open Access)The neural resp...
When sensory input conveys rhythmic regularity, we can form predictions about the timing of upcoming...
The predictive coding model of perception proposes that neuronal responses reflect prediction errors...
Forward predictions are not only crucial to predict somatosensory consequences of movements, but may...