How the human auditory system extracts perceptually relevant acoustic features of speech is unknown. To address this question, we used intracranial recordings from nonprimary auditory cortex in the human superior temporal gyrus to determine what acoustic information in speech sounds can be reconstructed from population neural activity. We found that slow and intermediate temporal fluctuations, such as those corresponding to syllable rate, were accurately reconstructed using a linear model based on the auditory spectrogram. However, reconstruction of fast temporal fluctuations, such as syllable onsets and offsets, required a nonlinear sound representation based on temporal modulation energy. Reconstruction accuracy was highest within the ran...
Human speech has a unique capacity to carry and communicate rich meanings. However, it is not known ...
Physical variability of speech combined with its perceptual constancy make speech recognition a chal...
Humans are adept at understanding speech despite the fact that our natural listening environment is ...
How the human auditory system extracts perceptually relevant acoustic features of speech is unknown....
How the human auditory system extracts perceptually relevant acoustic features of speech is unknown....
<div><p>How the human auditory system extracts perceptually relevant acoustic features of speech is ...
Ethological views of brain functioning suggest that sound representations and computations in the au...
Human speech perception results from neural computations that transform external acoustic speech sig...
The human brain contains a remarkable sensory system that allows us to effortlessly process speech. ...
SummaryHow natural speech is represented in the auditory cortex constitutes a major challenge for co...
How natural speech is represented in the auditory cortex constitutes a major challenge for cognitive...
Brain oscillations are dynamic entities, rapidly varying in time and frequency that are extensively ...
Speech perception is thought to rely on a cortical feedforward serial transformation of acoustic int...
This dissertation investigates the cortical representation of speech perception, using a combination...
Human speech has a unique capacity to carry and communicate rich meanings. However, it is not known ...
Human speech has a unique capacity to carry and communicate rich meanings. However, it is not known ...
Physical variability of speech combined with its perceptual constancy make speech recognition a chal...
Humans are adept at understanding speech despite the fact that our natural listening environment is ...
How the human auditory system extracts perceptually relevant acoustic features of speech is unknown....
How the human auditory system extracts perceptually relevant acoustic features of speech is unknown....
<div><p>How the human auditory system extracts perceptually relevant acoustic features of speech is ...
Ethological views of brain functioning suggest that sound representations and computations in the au...
Human speech perception results from neural computations that transform external acoustic speech sig...
The human brain contains a remarkable sensory system that allows us to effortlessly process speech. ...
SummaryHow natural speech is represented in the auditory cortex constitutes a major challenge for co...
How natural speech is represented in the auditory cortex constitutes a major challenge for cognitive...
Brain oscillations are dynamic entities, rapidly varying in time and frequency that are extensively ...
Speech perception is thought to rely on a cortical feedforward serial transformation of acoustic int...
This dissertation investigates the cortical representation of speech perception, using a combination...
Human speech has a unique capacity to carry and communicate rich meanings. However, it is not known ...
Human speech has a unique capacity to carry and communicate rich meanings. However, it is not known ...
Physical variability of speech combined with its perceptual constancy make speech recognition a chal...
Humans are adept at understanding speech despite the fact that our natural listening environment is ...