During successful auditory perception, the human brain classifies diverse acoustic information into meaningful groupings, a process known as categorical perception (CP). Intense auditory experiences (e.g., musical training and language expertise) shape categorical representations necessary for speech identification and novel sound-to-meaning learning, but little is known concerning the role of innate auditory function in CP. Here, we tested whether listeners vary in their intrinsic abilities to categorize complex sounds and individual differences in the underlying auditory brain mechanisms. To this end, we recorded EEGs in individuals without formal music training but who differed in their inherent auditory perceptual abilities (i.e., music...
Efficient speech perception requires the mapping of highly variable acoustic signals to distinct pho...
The transformation of acoustic signals into abstract perceptual representations is the essence of th...
Listeners must accomplish two complementary perceptual feats in extracting a message from speech. Th...
To construct our perceptual world, the brain categorizes variable sensory cues into behaviorally-rel...
To make sense of the auditory world, listeners must organize diverse, continuously varying sounds in...
Categorizing sounds into meaningful groups helps listeners more efficiently process the auditory sce...
Event-related brain potentials (ERPs) reveal musical experience refines neural encoding and confers ...
In categorical perception (CP), continuous physical signals are mapped to discrete perceptual bins: ...
Speech perception requires the effortless mapping from smooth, seemingly continuous changes in sound...
In this study, we used high-density EEG to evaluate whether speech and music expertise has an influe...
Neural oscillations have been linked to various perceptual and cognitive brain operations. Here, we ...
Objective. Categorical perception (CP) of audio is critical to understand how the human brain percei...
Categorical perception (CP) describes how the human brain categorizes speech despite inherent acoust...
Auditory perceptual representations (i.e., “sounds”) reflect the brain’s ability to group or segrega...
Speech perception requires the rapid and effortless extraction of meaningful phonetic information fr...
Efficient speech perception requires the mapping of highly variable acoustic signals to distinct pho...
The transformation of acoustic signals into abstract perceptual representations is the essence of th...
Listeners must accomplish two complementary perceptual feats in extracting a message from speech. Th...
To construct our perceptual world, the brain categorizes variable sensory cues into behaviorally-rel...
To make sense of the auditory world, listeners must organize diverse, continuously varying sounds in...
Categorizing sounds into meaningful groups helps listeners more efficiently process the auditory sce...
Event-related brain potentials (ERPs) reveal musical experience refines neural encoding and confers ...
In categorical perception (CP), continuous physical signals are mapped to discrete perceptual bins: ...
Speech perception requires the effortless mapping from smooth, seemingly continuous changes in sound...
In this study, we used high-density EEG to evaluate whether speech and music expertise has an influe...
Neural oscillations have been linked to various perceptual and cognitive brain operations. Here, we ...
Objective. Categorical perception (CP) of audio is critical to understand how the human brain percei...
Categorical perception (CP) describes how the human brain categorizes speech despite inherent acoust...
Auditory perceptual representations (i.e., “sounds”) reflect the brain’s ability to group or segrega...
Speech perception requires the rapid and effortless extraction of meaningful phonetic information fr...
Efficient speech perception requires the mapping of highly variable acoustic signals to distinct pho...
The transformation of acoustic signals into abstract perceptual representations is the essence of th...
Listeners must accomplish two complementary perceptual feats in extracting a message from speech. Th...