Vocal tract resonances in singing: the soprano voice.

The vocal tract resonances of trained soprano singers were measured while they sang a range of vowels softly at different pitches. The measurements were made by broad band acoustic excitation at the mouth, which allowed the resonances of the tract to be measured simultaneously with and independently from the harmonics of the voice. At low pitch, when the lowest resonance frequency R1 exceeded f0, the values of the first two resonances R1 and R2 varied little with frequency and had values consistent with normal speech. At higher pitches, however, when fo exceeded the value of R1 observed at low pitch, R1 increased with f0 so that R1 was approximately equal to f0. R2 also increased over this high pitch range, probably as an incidental consequence of the tuning of R1. R3 increased slightly but systematically, across the whole pitch range measured. There was no evidence that any resonances are tuned close to harmonics of the pitch frequency except for R1 at high pitch. The variations in R1 and R2 at high pitch mean that vowels move, converge, and overlap their positions on the vocal plane (R2,R1) to an extent that implies loss of intelligibility.

[1]  H. Berlioz Le chef d'orchestre, théorie de son art : extrait du Grand Traité d'instrumentation et d'orchestration modernes , 1844 .

[2]  J. Sundberg The acoustics of the singing voice. , 1977, Scientific American.

[3]  B. Lindblom,et al.  Acoustical consequences of lip, tongue, jaw, and larynx movement. , 1970, The Journal of the Acoustical Society of America.

[4]  J. Sundberg Articulatory interpretation of the "singing formant". , 1974, The Journal of the Acoustical Society of America.

[5]  R. B. Monsen,et al.  The accuracy of formant frequency measurements: a comparison of spectrographic analysis and linear prediction. , 1983, Journal of speech and hearing research.

[6]  N. Scotto Di Carlo,et al.  A Perceptual Study of the Influence of Pitch on the Intelligibility of Sung Vowels , 1985, Phonetica.

[7]  J. Sundberg,et al.  The Science of Singing Voice , 1987 .

[8]  I. Titze The physics of small-amplitude oscillation of the vocal folds. , 1988, The Journal of the Acoustical Society of America.

[9]  M. S. Benolken,et al.  The effect of pitch‐related changes on the perception of sung vowels , 1990 .

[10]  Julien Epps,et al.  A novel instrument to measure acoustic resonances of the vocal tract during phonation , 1997 .

[11]  R F Wolf,et al.  Comparison of vocal tract formants in singing and nonperiodic phonation. , 1997, Journal of voice : official journal of the Voice Foundation.

[12]  J Sundberg,et al.  Dependence of jaw opening on pitch and vowel in singers. , 1997, Journal of voice : official journal of the Voice Foundation.

[13]  John R. Lindsay Smith,et al.  Learning to Pronounce Vowel Sounds in a Foreign Language using Acoustic Measurements of the Vocal Tract as Feedback in Real Time , 1998 .

[14]  J. Sundberg,et al.  Speech , Music and Hearing Quarterly Progress and Status Report Level and center frequency of the singer ’ s formant , 2007 .

[15]  W. S. Brown,et al.  Singer's formant in sopranos: fact or fiction? , 2001, Journal of Voice.

[16]  M. Erickson,et al.  A comparison of two methods of formant frequency estimation for high-pitched voices. , 2002, Journal of voice : official journal of the Voice Foundation.

[17]  John Smith,et al.  Acoustics: Tuning of vocal tract resonance by sopranos , 2004, Nature.