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Comparisons among aerodynamic, electroglottographic, and acoustic spectral measures of female voice

Author(s): Hillman, R. E., Perkell, J. S., Guiod, P. C., Goldman, S. L.

Journal/Book: J Speech Hear Res. 1995; 38: 10801 Rockville Pike Rd, Rockville, MD 20852-3279. Amer Speech-Lang-Hearing Assn. 1212-1223.

Abstract: This study examines measures of the glottal airflow waveform, the electroglottographic signal (EGG), amplitude differences between peaks in the acoustic spectrum, and observations of the spectral energy content of the third formant (F3), in terms of how they relate to one another. Twenty females with normal voices served as subjects. Both group and individual data were studied. Measurements were made for the vowel in two speech tasks: strings of the syllable /p ae/ and sustained phonation of /ae/, which were produced at two levels of vocal effort: comfortable and loud voice. The main results were: 1. Significant differences in parameter values between /p ae/ and /ae/ were related to significant differences in the sound pressure level (SPL). 2. An ''adduction quotient,'' measured from the glottal waveform at a 30% criterion, was sensitive enough to differentiate between waveforms reflecting abrupt versus gradual vocal fold closing movements. 3. DC flow showed weak or nonsignificant relationships with acoustic measures. 4. The spectral content in the third formant (F3) in comfortable loudness typically consisted of a mix of noise and harmonic energy. In loud voice, the F3 spectral content typically consisted of harmonic energy. 5. Significant differences were found in all measures between tokens with F3 harmonic energy and tokens with F3 noise, independent of loudness condition. 6. Strong relationships between flow- and EGG-adduction quotients suggested that these signals can be used to complement each other. 7. The amplitude difference between spectral peaks of the first and third formant (F1-F3) was found to add information about abruptness of airflow decrease (flow declination) that may be lost in the glottal waveform signal due to low-pass filtering. The results are discussed in terms of bow an integrated use of these measures can contribute to a better understanding of the normal vocal mechanism and help to improve methods for evaluating vocal function.

Note: Article EB Holmberg, Mit, Electr Res Lab, Bldg 36, Room 521, Cambridge, MA 02139 USA

Keyword(s): female voice; glottal airflow waveform; glottal aperture; acoustic spectral slope; electroglottography; GLOTTAL AIR-FLOW; PERCEPTION; PRESSURE; BREATHINESS; PHONATION; VOWELS; AREA


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