Information for Mandarin Tones in the Amplitude Contour and in Brief Segments

Whalen, D. H.; Xu, Yi

doi:10.1159/000261901

Cited by 273 publications

(271 citation statements)

References 3 publications

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“…By testing both "difficult" and "easy" contrasts together, we had the chance to examine whether the two groups would differ in the discrimination of lexical tones, and if so, whether such differences were specific to the difficult or easy tones. Second, it has been argued that T2 and T3 share a similar pitch register, which is lower than T1 and T4 (Whalen & Xu, 1992). Our manipulation ensured that the natural register of the lexical tones was not distorted, and at the same time pitch contour was the only cue for discrimination.…”

Section: Stimulimentioning

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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Section: Stimulimentioning

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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“…However, human perception is more complex. On the one hand, different parts of pitch contours contribute differently to speech perception (Whalen and Xu, 1992). On the other hand, tonal perception is incremental (Shen et al, 2013).…”

Section: Limitationsmentioning

confidence: 99%

Predicting tonal realizations in one Chinese dialect from another

Chen

Heuven

et al. 2016

Speech Communication

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Pronunciation dictionaries are usually expensive and time-consuming to prepare for the computational modeling of human languages, especially when the target language is under-resourced. Northern Chinese dialects are often under-resourced but used by a significant number of speakers. They share the basic sound inventories with Standard Chinese (SC). Also, their words usually share the segmental realizations and logographic written forms with the SC translation equivalents. Hence the pronunciation dictionaries of northern Chinese dialects could be easily available if we were able to predict the tonal realizations of the dialect words from the tonal information of their SC counterparts. This paper applies statistical modeling to investigate the tonal aspect of the related words between a northern dialect, i.e. Jinan Mandarin (JM), and Standard Chinese (SC). Multi-linear regression models were built with between-word pitch distance of JM words as the dependent variable and the following were included as the predictors: SC tonal relations, between-dialect tonal identity, and individual backgrounds. The results showed that tonal relations in SC and between-dialect identity, as predictors featuring the relation between the JM and SC tonal systems, are significant and robust predictors of JM tonal realizations. The speakers' sociolinguistic and cognitive backgrounds, together with the tonal merge and neutral tone information within JM, are important for the prediction of JM tonal realizations and affect the way that between-language predictors take effect.

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“…To address the above issues, Ou and Law (2016) subsequently conducted a more detailed examination of the differences in perception and production of T2/T5 between the [+Per+Pro] and [+Per-Pro] groups from Ou et al (2015), using ERPs obtained in a passive oddball paradigm for perception and acoustic measurements for production. The ERP measures included (1) an early component reflecting sensitivity to the rise time of sound amplitude envelope (Carpenter & Shahin, 2013;Thomson, Goswami, & Baldeweg, 2009), which has been reported to contribute to tone recognition (Fu & Zeng, 2000;Whalen & Xu, 1992;Zhou, 2012); (2) the mismatch negativity (MMN, see Näätänen, Paavilainen, Rinne, & Alho, 2007 for a review) indicating auditory discrimination sensitivity to the primary acoustic dimension of tone contrasts, i.e., pitch contour/height (Gandour, 1983;Khouw & Ciocca, 2007); and (3) P3a indexing involuntary attentional switching (Polich, 2003). For production, the differentiations between T2 and T5 in terms of pitch offset and amplitude rise time were measured acoustically.…”

Section: Introductionmentioning

confidence: 99%

Cognitive basis of individual differences in speech perception, production and representations: The role of domain general attentional switching

Law

2017

Atten Percept Psychophys

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This study investigated whether individual differences in cognitive functions, attentional abilities in particular, were associated with individual differences in the quality of phonological representations, resulting in variability in speech perception and production. To do so, we took advantage of a tone merging phenomenon in Cantonese, and identified three groups of typically developed speakers who could differentiate the two rising tones (high and low rising) in both perception and production [+Per+Pro], only in perception [+Per-Pro], or in neither modalities [-Per-Pro]. Perception and production were reflected, respectively, by discrimination sensitivity d′ and acoustic measures of pitch offset and rise time differences. Components of event-related potential (ERP)-the mismatch negativity (MMN) and the ERPs to amplitude rise time-were taken to reflect the representations of the acoustic cues of tones. Components of attention and working memory in the auditory and visual modalities were assessed with published test batteries. The results show that individual differences in both perception and production are linked to how listeners encode and represent the acoustic cues (pitch contour and rise time) as reflected by ERPs. The present study has advanced our knowledge from previous work by integrating measures of perception, production, attention, and those reflecting quality of representation, to offer a comprehensive account for the underlying cognitive factors of individual differences in speech processing. Particularly, it is proposed that domain-general attentional switching affects the quality of perceptual representations of the acoustic cues, giving rise to individual differences in perception and production.

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Information for Mandarin Tones in the Amplitude Contour and in Brief Segments

Cited by 273 publications

References 3 publications

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

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

Predicting tonal realizations in one Chinese dialect from another

Cognitive basis of individual differences in speech perception, production and representations: The role of domain general attentional switching

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