SummaryThe human ability to understand speech is underpinned by a hierarchical auditory system whose successive stages process increasingly complex attributes of the acoustic input. It has been suggested that to produce categorical speech perception, this system must elicit consistent neural responses to speech tokens (e.g., phonemes) despite variations in their acoustics. Here, using electroencephalography (EEG), we provide evidence for this categorical phoneme-level speech processing by showing that the relationship between continuous speech and neural activity is best described when that speech is represented using both low-level spectrotemporal information and categorical labeling of phonetic features. Furthermore, the mapping between p...
Contains fulltext : 167242.pdf (publisher's version ) (Open Access)ABSTRACTIn the ...
In the last decade, the involvement of neural oscillatory mechanisms in speech comprehension has bee...
During successful auditory perception, the human brain classifies diverse acoustic information into ...
SummaryThe human ability to understand speech is underpinned by a hierarchical auditory system whose...
When we listen to speech, we have to make sense of a waveform of sound pressure. Hierarchical models...
Speech perception requires the effortless mapping from smooth, seemingly continuous changes in sound...
Contains fulltext : 175531.pdf (publisher's version ) (Open Access)Despite a large...
Speech perception requires the rapid and effortless extraction of meaningful phonetic information fr...
Speech is a highly-structured auditory signal that carries necessary and sufficient information for ...
Efficient speech perception requires the mapping of highly variable acoustic signals to distinct pho...
Neural oscillations have been linked to various perceptual and cognitive brain operations. Here, we ...
Speech production engages a variety of subprocesses, including conceptual preparation, lexical selec...
Categorical perception (CP) describes how the human brain categorizes speech despite inherent acoust...
Spoken language comprehension requires rapid and continuous integration of information, from lower-l...
Objective. Categorical perception (CP) of audio is critical to understand how the human brain percei...
Contains fulltext : 167242.pdf (publisher's version ) (Open Access)ABSTRACTIn the ...
In the last decade, the involvement of neural oscillatory mechanisms in speech comprehension has bee...
During successful auditory perception, the human brain classifies diverse acoustic information into ...
SummaryThe human ability to understand speech is underpinned by a hierarchical auditory system whose...
When we listen to speech, we have to make sense of a waveform of sound pressure. Hierarchical models...
Speech perception requires the effortless mapping from smooth, seemingly continuous changes in sound...
Contains fulltext : 175531.pdf (publisher's version ) (Open Access)Despite a large...
Speech perception requires the rapid and effortless extraction of meaningful phonetic information fr...
Speech is a highly-structured auditory signal that carries necessary and sufficient information for ...
Efficient speech perception requires the mapping of highly variable acoustic signals to distinct pho...
Neural oscillations have been linked to various perceptual and cognitive brain operations. Here, we ...
Speech production engages a variety of subprocesses, including conceptual preparation, lexical selec...
Categorical perception (CP) describes how the human brain categorizes speech despite inherent acoust...
Spoken language comprehension requires rapid and continuous integration of information, from lower-l...
Objective. Categorical perception (CP) of audio is critical to understand how the human brain percei...
Contains fulltext : 167242.pdf (publisher's version ) (Open Access)ABSTRACTIn the ...
In the last decade, the involvement of neural oscillatory mechanisms in speech comprehension has bee...
During successful auditory perception, the human brain classifies diverse acoustic information into ...