Categorical perception (CP) represents a fundamental process in converting continuous speech acoustics into invariant percepts. Using scalp-recorded event-related brain potentials (ERPs), we investigated how tone-language experience and stimulus context influence the CP for lexical tones-pitch patterns used by a majority of the world\u27s languages to signal word meaning. Stimuli were vowel pairs overlaid with a high-level tone (T1) followed by a pitch continuum spanning between dipping (T3) and rising (T2) contours of the Mandarin tonal space. To vary context, T1 either preceded or followed the critical T2/T3 continuum. Behaviorally, native Chinese showed stronger CP as evident by their steeper, more dichotomous psychometric functions and ...
All these four factors influence the degree of CP. In the discussion, both general auditory processi...
Previous electrophysiological evidence supports categorical perception of Chinese lexical tones at t...
During successful auditory perception, the human brain classifies diverse acoustic information into ...
AbstractPitch processing at cortical and subcortical stages of processing is shaped by language expe...
Using the mismatch negativity (MMN), a cortical index of preattentive change-detection, it is well e...
Brainstem frequency-following responses were recorded from Chinese and English participants in respo...
Overlearned tonal processing in tone language speakers generates experience-dependent effects that ...
Neural encoding of pitch in the auditory brainstem is shaped by long-term experience with language. ...
Language experience is known to modulate the preattentive processing of linguistically relevant pitc...
Languages can use a common repertoire of vocal sounds to signify distinct meanings. In tonal languag...
In the present study, event-related brain potentials (ERP) were recorded to investigate the role of ...
Native tone language experience has been linked with alterations in the production and perception of...
Previous research on categorical perception of pitch contours has mainly considered the contrast bet...
Brainstem frequency-following responses were recorded from Chinese and English participants in respo...
In tonal languages, such as Mandarin Chinese, the pitch contour of vowels discriminates lexical mean...
All these four factors influence the degree of CP. In the discussion, both general auditory processi...
Previous electrophysiological evidence supports categorical perception of Chinese lexical tones at t...
During successful auditory perception, the human brain classifies diverse acoustic information into ...
AbstractPitch processing at cortical and subcortical stages of processing is shaped by language expe...
Using the mismatch negativity (MMN), a cortical index of preattentive change-detection, it is well e...
Brainstem frequency-following responses were recorded from Chinese and English participants in respo...
Overlearned tonal processing in tone language speakers generates experience-dependent effects that ...
Neural encoding of pitch in the auditory brainstem is shaped by long-term experience with language. ...
Language experience is known to modulate the preattentive processing of linguistically relevant pitc...
Languages can use a common repertoire of vocal sounds to signify distinct meanings. In tonal languag...
In the present study, event-related brain potentials (ERP) were recorded to investigate the role of ...
Native tone language experience has been linked with alterations in the production and perception of...
Previous research on categorical perception of pitch contours has mainly considered the contrast bet...
Brainstem frequency-following responses were recorded from Chinese and English participants in respo...
In tonal languages, such as Mandarin Chinese, the pitch contour of vowels discriminates lexical mean...
All these four factors influence the degree of CP. In the discussion, both general auditory processi...
Previous electrophysiological evidence supports categorical perception of Chinese lexical tones at t...
During successful auditory perception, the human brain classifies diverse acoustic information into ...