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http://dx.doi.org/10.13064/KSSS.2017.9.4.077

Phonetic meaning of clarity and turbidity  

Park, Hansang (홍익대학교)
Publication Information
Phonetics and Speech Sciences / v.9, no.4, 2017 , pp. 77-89 More about this Journal
Abstract
This study investigates the phonetic meaning of clarity and turbidity(淸濁) that has been used in psychoacoustics, musicology, and linguistics in both the East and the West. With a view to clarifying the phonetic meaning of clarity and turbidity, this study conducts three perception tests. First, 34 subjects were asked to take one of Clear and Turbid by forced choice for 5 pure and complex tones, respectively, ranging from A2 to A6 differing by octave. Second, they were asked to select between the two choices for 25 pure and complex tones, respectively, ranging from A2 to A4 differing by semitone. Third, they were asked to opt for one of the two choices for 8 different vowels of different formant and fundamental frequencies. Results showed that there is a certain range of tone which is perceived as clear, that clarity level increases as fundamental frequency increases, and that pure tones have a higher level of clarity than complex ones, fundamental frequency being equal. Results also showed that vocal tract resonance enhances clarity level on the whole, and that lower vowels have a higher level of clarity than higher ones. This study is significant in that it demonstrates that clarity level is proportional to fundamental frequency and the first formant frequency, all else being equal.
Keywords
clarity; psychoacoustic; phonetic; tone; vowel; fundamental frequency; formant frequency; octave; semitone;
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1 Bates, D., Machler, M., Bolker, B., & Walker, S. (2015). Fitting Linear Mixed-Effects Models Using lme4. Journal of Statistical Software, 67(1), 1-48. Retrieved from https://www.jstatsoft.org/article/view/v067i01 on November 1, 2017.
2 Boersma, P., & Weenink, D. (2017). Praat: doing phonetics by computer [Computer program]. Version 6.0.35. Retrieved from http://www.praat.org/ on 16 October 2017.
3 Chomsky, N., & Halle, M. (1968). The Sound Pattern of English. New York: Harper & Row Publishers.
4 Fischer-Jorgensen, E. (1975). Trends in Phonological Theory: A Historical Introduction. Copenhagen: Akademisk Forlag.
5 Helmholtz, H. (1954). On the sensations of tone as a physiological basis for the theory of music (2nd English edition). New York: Dover Publications.
6 Jakobson, R., & Halle, M. (2002). Fundamentals of Language (2nd edition). New York: Walter de Gruyter.
7 Jakobson, R., Fant, G., & Halle, M. (1951). Preliminaries to Speech Analysis: The Distinctive Features and their Correlates. Cambridge: MIT Press.
8 Kamei, T., Kono, R., & Chino, E. (1989). The Sanseido Encyclopedia of Linguistics, Vol. 2, Languages of the World, Part Two. Tokyo: Sanseido Co. Ltd. (龜井孝, 河野六郞, 千野榮一 (1989). 言語學大辭典, 第 2 卷, 世界言語編(中). 東京: 三省堂.)
9 Kamei, T., Kono, R., & Chino, E. (1996). The Sanseido Encyclopedia of Linguistics, Vol. 6, Terms. Tokyo: Sanseido Co. Ltd. (龜井孝, 河野六郞, 千野榮一 (1996). 言語學大辭典, 第 6 卷, 術語編. 東京: 三省堂.)
10 Kim, Y. (2014). Twelve tones. Dictionary of Korean Music. Retrieved from https://www.gugak.go.kr/site/program/board/basicboard/view?menuid=001003001002&boardtypeid=6&boardid=1210 on October 31, 2017. (김영운 (2014). 12 율. 국악사전, https://www.gugak.go.kr/site/program/board/basicboard/view?menuid=001003001002&boardtypeid=6&boardid=1210).
11 Lee, H., & Shim, S. (1999). Chinese Phonetics. Seoul: Kyoyukgwahaksa. (이현복.심소희 (1999). 중국어음성학. 서울: 교육과학사.)
12 National Gugak Center (2008). 2007 Report on the Study of Korean Traditional Musical Instruments. Seoul: National Gugak Center. (국립국악원 (2008). 국악기연구보고서, 2007. 서울: 국립국악원.)
13 Pratt, R., & Doak, P. (1976). A Subjective Rating Scale for Timbre. Journal of Sound and Vibration, 45(3), 317-328.   DOI
14 Wayland, R., & Jongman, A. (1989). Acoustic correlates of breathy and clear vowels: the case of Khmer. Journal of Phonetics, 31(2), 181-201.   DOI
15 Trubetzkoy, N. (1939). Principles of Phonology. (Translated by Christiane Baltaxe). Berkely: The University of California Press.
16 Uchanski, R. (2005). Clear speech. In D. Pisoni, & R. Remez (Eds.), The Handbook of Speech Perception (pp. 207-235). Malden: Blackwell Publishing.
17 von Bismarck, G. (1974). Timbre of Steady Sounds: A Factorial Investigation of Its Verbal Attributes. Acustica, 30, 146-159.