Add to ORKGHumans are adept at understanding speech despite the fact that our natural listening environment is often filled with interference. An example of this capacity is phoneme restoration, in which part of a word is completely replaced by noise, yet listeners report hearing the whole word. The neurological basis for this unconscious fill-in phenomenon is unknown, despite being a fundamental characteristic of human hearing. Here, using direct cortical recordings in humans, we demonstrate that missing speech is restored at the acoustic-phonetic level in bilateral auditory cortex, in real-time. This restoration is preceded by specific neural activity patterns in a separate language area, left frontal cortex, which predicts the word that participant...
Speech perception is thought to rely on a cortical feedforward serial transformation of acoustic int...
We examined which brain areas are involved in the comprehension of acoustically distorted speech usi...
What do we hear when someone speaks and what does auditory cortex (AC) do with that sound? Given how...
Humans are adept at understanding speech despite the fact that our natural listening environment is ...
Study datasetIn naturally noisy listening conditions, for example at a cocktail party, noise disrupt...
Sufficiently noisy listening conditions can completely mask the acoustic signal of significant parts...
Sufficiently noisy listening conditions can completely mask the acoustic signal of significant parts...
Sufficiently noisy listening conditions can completely mask the acoustic signal of significant parts...
<div><p>How the human auditory system extracts perceptually relevant acoustic features of speech is ...
Sufficiently noisy listening conditions can completely mask the acoustic signal of significant parts...
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....
Humans are remarkably skilled at listening to one speaker out of an acoustic mixture of several spee...
When we speak, we provide ourselves with auditory speech input. Efficient monitoring of speech is of...
A growing body of evidence shows that ongoing oscillations in auditory cortex modulate their phase t...
Speech perception is thought to rely on a cortical feedforward serial transformation of acoustic int...
We examined which brain areas are involved in the comprehension of acoustically distorted speech usi...
What do we hear when someone speaks and what does auditory cortex (AC) do with that sound? Given how...
Humans are adept at understanding speech despite the fact that our natural listening environment is ...
Study datasetIn naturally noisy listening conditions, for example at a cocktail party, noise disrupt...
Sufficiently noisy listening conditions can completely mask the acoustic signal of significant parts...
Sufficiently noisy listening conditions can completely mask the acoustic signal of significant parts...
Sufficiently noisy listening conditions can completely mask the acoustic signal of significant parts...
<div><p>How the human auditory system extracts perceptually relevant acoustic features of speech is ...
Sufficiently noisy listening conditions can completely mask the acoustic signal of significant parts...
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....
Humans are remarkably skilled at listening to one speaker out of an acoustic mixture of several spee...
When we speak, we provide ourselves with auditory speech input. Efficient monitoring of speech is of...
A growing body of evidence shows that ongoing oscillations in auditory cortex modulate their phase t...
Speech perception is thought to rely on a cortical feedforward serial transformation of acoustic int...
We examined which brain areas are involved in the comprehension of acoustically distorted speech usi...
What do we hear when someone speaks and what does auditory cortex (AC) do with that sound? Given how...