Effects of language experience and stimulus complexity on the categorical perception of pitch direction

Xu, Yisheng; Gandour, Jackson T.; Francis, Alexander L.

doi:10.1121/1.2213572

Cited by 260 publications

(359 citation statements)

References 74 publications

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“…For example, Chinese speakers, in addition to showing categorical perception of linguistic tone, demonstrate categorical perception of nonspeech tone analogues, whereas English speakers do not (Xu, Gandour, & Francis, 2006). Moreover, Chinese music conservatory students show much higher occurrences of absolute pitch labeling abilities than do American music conservatory students (Deutsch, Henthorn, Marvin, & Xu, 2006).…”

Section: Studymentioning

confidence: 99%

Enhanced production and perception of musical pitch in tone language speakers

Pfordresher

Brown

2009

Attention, Perception, & Psychophysics

140

158

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Individuals differ markedly with respect to how well they can imitate pitch through singing and in their ability to perceive pitch differences. We explored whether the use of pitch in one's native language can account for some of the differences in these abilities. Results from two studies suggest that individuals whose native language is a tone language, in which pitch contributes to word meaning, are better able to imitate (through singing) and perceptually discriminate musical pitch. These findings support the view that language acquisition fine-tunes the processing of critical auditory dimensions in the speech signal and that this fine-tuning can be carried over into nonlinguistic domains.

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Section: Studymentioning

confidence: 99%

Enhanced production and perception of musical pitch in tone language speakers

Pfordresher

Brown

2009

Attention, Perception, & Psychophysics

140

158

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“…Such assumption, however, neglects the important fact that lexical tones do not have the same function for tone and non-tone speakers. The absence of lexical tones makes non-tone language listeners perceive them psycho-acoustically rather than phonologically, whereas for tone language speakers, lexical tones are phonological categories rather than pure acoustical pitch variations (Francis, Ciocca, & Ng, 2003;Hallé, Chang, & Best, 2004;Xu, Gandour, & Francis, 2006). Music perception, on the other hand, calls for accurate perception of discrete pitches as small as one semitone, regardless of language background (McDermott & Oxenham, 2008;Trainor & Hannon, 2013).…”

Section: Introductionmentioning

confidence: 99%

Cross-domain correlation in pitch perception, the influence of native language

Chen

Liu

Kager

2016

Language, Cognition and Neuroscience

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The current study explores how language experience may shape the correlation between lexical tone and musical pitch perception. A two domains (music and lexical tone) by two languages (tone, Mandarin Chinese and non-tone, Dutch) design is adopted. Participants were tested on their discrimination of Mandarin Chinese lexical tones, Montreal Battery of Evaluation of Amusia (MBEA), and Musical Ear Test (MET). The Chinese listeners outperformed the Dutch listeners on both MBEA and MET, but had comparable accuracies for the lexical tone discrimination. Importantly, a significant cross-domain correlation was only observed for the Dutch listeners but not for the Chinese listeners. For tone language listeners, once lexical tones have been acquired, native listeners perceive them as phonological categories, and split them from other pitch variations that do not play a phonemic role. Non-tone language listeners, on the other hand, perceive both lexical tones and musical pitch on a psycho-acoustical basis, hence exhibit a unified perception of pitch across the two domains.ARTICLE HISTORY

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“…1). In a categorical perception experiment [32], it has been demonstrated that this linear rising ramp can be identified as Mandarin Tone 2 with a high level of accuracy.…”

Section: ) Irn Linear Risingmentioning

confidence: 99%

“…Time varying IRN stimuli were generated to produce a curvilinear rising f contour at increasing iteration steps (4,8,16,32,64) (Fig. 1).…”

Section: ) Irn Linear Risingmentioning

confidence: 99%

Applications of Static and Dynamic Iterated Rippled Noise to Evaluate Pitch Encoding in the Human Auditory Brainstem

Swaminathan

Krishnan

Gandour

et al. 2008

IEEE Trans. Biomed. Eng.

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Abstract-This paper presents a new application of the dynamic iterated rippled noise (IRN) algorithm by generating dynamic pitch contours representative of those that occur in natural speech in the context of EEG and the frequency following response (FFR). Besides IRN steady state and linear rising stimuli, curvilinear rising stimuli were modeled after pitch contours of natural productions of Mandarin Tone 2. Electrophysiological data on pitch representation at the level of the brainstem, as reflected in FFR, were evaluated for all stimuli, static or dynamic. Autocorrelation peaks were observed corresponding to the fundamental period ( ) as well as spectral bands at the fundamental and its harmonics for both a low and a high iteration step. At the higher iteration step, both spectral and temporal FFR representations were more robust, indicating that both acoustic properties may be utilized for pitch extraction at the level of the brainstem. By applying curvilinear IRN stimuli to elicit FFRs, we can evaluate the effects of temporal degradation on 1) the neural representation of linguistically-relevant pitch features in a target population (e.g., cochlear implant) and 2) the efficacy of signal processing schemes in conventional hearing aids and cochlear implants to recover these features.Index Terms-Auditory brainstem, cochlear implant, experience dependent plasticity, frequency following response, iterated rippled noise, pitch, signal processing.

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Effects of language experience and stimulus complexity on the categorical perception of pitch direction

Cited by 260 publications

References 74 publications

Enhanced production and perception of musical pitch in tone language speakers

Enhanced production and perception of musical pitch in tone language speakers

Cross-domain correlation in pitch perception, the influence of native language

Applications of Static and Dynamic Iterated Rippled Noise to Evaluate Pitch Encoding in the Human Auditory Brainstem

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