Influence on tone perception from vowels with different formant distributions

doi:10.16511/j.cnki.qhdxxb.2018.25.023

Abstract
Figures/Tables
References
Related Articles
Metrics

Download: PDF(1067 KB)
Export: BibTeX | EndNote | Reference Manager | ProCite | RefWorks

Abstract Previous studies have demonstrated the important effect of vowels on tone perception. The vowels qualities are mainly determined by formants. Existing studies were surveyed to investigate the effect of vowel formant distribution on tone perception. A continuum of vowel sounds from low to high vowels were investigated with stimuli based on three different tone continua to evaluate the tone identification. The results show that higher vowel formant distributions are more likely to be perceived as relatively low tones in the tone continuum. This effect varies with the tones with stronger effects on second and third tones. The tone perception effect is mainly reflected in the category boundary instead of the category width.

Keywords tone perception vowels formants continua

ZTFLH:

H017

Issue Date: 15 April 2018

	Service

	E-mail this article
	E-mail Alert
	RSS
	Articles by authors

	CAO Chong
	XIE Yanlu
	ZHANG Jinsong

Cite this article:

CAO Chong,XIE Yanlu,ZHANG Jinsong. Influence on tone perception from vowels with different formant distributions[J]. Journal of Tsinghua University(Science and Technology), 2018, 58(4): 352-356.

URL:

http://jst.tsinghuajournals.com/EN/10.16511/j.cnki.qhdxxb.2018.25.023 OR http://jst.tsinghuajournals.com/EN/Y2018/V58/I4/352

[1] LIN M C. The pitch indicator and the pitch characteristics of tones in standard Chinese[J]. Acta Acust, 1965, 1:8-15.
[2] CHUANG C K, HIKI S. The acoustical features and perceptual cues for the four tones of standard Chinese[J]. The Journal of the Acoustical Society of America, 1972, 52(1):146-146.
[3] HOWIE J M. On the domain of tone in Mandarin[J]. Phonetica, 1974, 30(3):129-148.
[4] CHUANG C K, WANG S Y. Psychophysical pitch biases related to vowel quality, intensity difference, and sequential order[J]. The Journal of the Acoustic Society of America, 1978, 64(4):1004-1014.
[5] WANG S Y. Language change[J]. Annals of the New York Academy Sciences, 1976, 208(1):61-729.
[6] 杨玉芳. 元音和声调知觉[J]. 心理学报, 1989, 21(1):31-36. YANG Y F. Vowel and tone perception[J]. Acta Psychologica Sinica, 1989, 21(1):31-36. (in Chinese)
[7] FOX R A, QI Y Y. Context effects in the perception of lexical tone[J]. Journal of Chinese Linguistics, 1990, 18(2):261-284.
[8] 郑秋晨. 汉语元音对声调感知边界的影响[J]. 心理学报, 2014, 46(9):1223-1231. ZHENG Q C. The influence of vowels on tone perception[J]. Acta Psychologica Sinica, 2014, 46(9):1223-1231. (in Chinese)
[9] 武波. 音质特征在汉语普通话阴平_阳平感知中的作用[D]. 上海:上海师范大学, 2015. WU B. The effect of voice quality on tone 1_tone 2 perception[D]. Shanghai:Shanghai Normal University, 2015. (in Chinese)
[10] 王星, 刘亚丽. 元音差异对声调感知范畴的影响[J]. 声学技术, 2013, 32(6):221-222. WANG X, LIU Y L. The influence of different vowels to categorical perception of tones[J]. Technical Acoustics, 2013, 32(6):221-222. (in Chinese)
[11] FRY D B, ABRAMSON A S, EIMAS P D, et al. The identification and discrimination of synthetic vowels[J]. Language and Speech, 1962, 5(4):171-189.
[12] 鲍怀翘, 林茂灿. 实验语音学概要[M]. 北京:北京大学出版社, 2014. BAO H Q, LIN M C. Essentials of experimental phonetics[M]. Beijing:Peking University Press, 2014. (in Chinese)
[13] ZHANG H, CHEN F, YAN N, et al. The effects of tone categories on the perception of Mandarin vowels[C]//The Processing of the 10th International Symposium on Chinese Spoken Language. Tianjin, China:IEEE, 2016:1-5.
[14] JONGMAN A, WANG Y, MOORE C B. Perception and production of Mandarin Chinese tones[M]. Cambridge:Cambridge University Press, 2006.
[15] OHALA J J, EUKEL B W. Explaining the intrinsic pitch of vowels[J]. Journal of the Acoustic Society of America, 1967, 60:207-215.
[16] SHI B, ZHANG J L. Vowel intrinsic pitch in standard Chinese[J]. Working Papers in Linguistics, 1986, 29(1):169-190.
[17] BEST C T, MORRONGIELLO B, ROBSON R. Perceptual equivalence of acoustic cues in speech and nonspeech perception[J]. Perception & Psychophysics, 1981, 29(3):191-211.
[18] STEVENS K N, KLATT D H. Role of formant transitions in the voiced-voiceless distinction for stops[J]. The Journal of the Acoustical Society of America, 1974, 55(3):653-659.
[19] 王硕, MANNELL R, NEWALL P, 等. 共振峰信息在汉语声调感知中的作用[J]. 中国耳鼻咽喉头颈外科, 2012, 19(1):8-11. WANG S, MANNELL R, NEWALL P, et al. Role of formants in Mandarin lexical tone perception[J]. Chinese Archives of Otolaryngology-Head and Neck Surgery, 2012, 19(1):8-11. (in Chinese)
[20] 王韫佳, 李美京. 调型和调阶对阳平和上声知觉的作用[J]. 心理学报, 2010, 42(9):899-908. WANG Y J, LI M J. The effects on tone pattern and register in perception of tone 2 and tone 3 in Mandarin[J]. Acta Psychologica Sinica, 2010, 42(9):899-908. (in Chinese)
[21] 张劲松, 邹婷, 曹文. 中日被试阳平和上声的感知研究[J]. 汉语应用语言学研究, 2013:214-224 ZHANG J S, ZOU T, CAO W. The perception study of tone 2 and tone 3 for native Mandarin speakers and Japanese learners[J]. Research on Chinese Applied Linguistics, 2013:214-224. (in Chinese)

[1]	ZHANG Xiaxia, WANG Bei. Prosodic encoding of focus and interrogative meaning in Lhasa Tibetan[J]. Journal of Tsinghua University(Science and Technology), 2018, 58(4): 368-373.
[2]	LI Yinghao, KONG Jiangping. Effects of speech rate on segment production in Standard Chinese[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(9): 963-969.
[3]	YAO Yun, WU Xiyu, KONG Jiangping. Radius vector-driven 3-D Mandarin vocal tract model[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(9): 945-951.
[4]	CAO Honglin, WANG Yujing, LI Jingyang. Effect of speaking rate on the formant dynamics of triphthongs[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(9): 958-962.
[5]	DONG Li, KONG Jiangping. Phonatory characteristics of the vibrato voice in Young woman roles in Kunqu Opera[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(6): 625-630.
[6]	XIE Chenwei, SHI Feng, WEN Baoying. Perception of Cantonese tones[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(3): 299-305.
[7]	WANG Gaowu, DANG Jianwu, KONG Jiangping. Modeling of the tongue tip in Standard Chinese using MRI[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(2): 158-163.
[8]	YANG Feng, KONG Jiangping. Chest and abdomen breathing while reading literature in Mandarin[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(2): 176-181.
[9]	KONG Jiangping, LIN Youran. Fundamental frequency characteristics of “dearing” as emotional speech[J]. Journal of Tsinghua University(Science and Technology), 2016, 56(11): 1149-1153.
[10]	FENG Hui, SONG Rui, GAO Xiaodong, WU Tongyu, DANG Jianwu. Visualized correction of English monophthongs for Tibetan speakers[J]. Journal of Tsinghua University(Science and Technology), 2016, 56(11): 1161-1165.
[11]	CAO Honglin, KONG Jiangping. Correlations between vocal tract parameters and body heights in adult humans[J]. Journal of Tsinghua University(Science and Technology), 2016, 56(11): 1184-1189,1195.
[12]	LI Yinghao, KONG Jiangping. Effects of focal accent on segmental articulation and acoustical properties in standard Chinese[J]. Journal of Tsinghua University(Science and Technology), 2016, 56(11): 1196-1201.
[13]	LI Shanpeng, GU Wentao. Acoustic characteristics of Mandarin affricates[J]. Journal of Tsinghua University(Science and Technology), 2016, 56(11): 1202-1208.

Viewed

Full text

Abstract

Cited

Shared

Discussed