Formation of the Actor's/Speaker's Formant: A Study Applying Spectrum Analysis and Computer Modeling

A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking voice, for example, among actors. The actor's or speaker's formant (resembling the singer's formant) can be established by certain vocal trai...

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Published inJournal of voice Vol. 25; no. 2; pp. 150 - 158
Main Authors Leino, Timo, Laukkanen, Anne-Maria, Radolf, Vojtěch
Format Journal Article
LanguageEnglish
Published United States Mosby, Inc 01.03.2011
Elsevier Science Ltd
Subjects
Acoustics
Computer Simulation
Formants
Fourier Analysis
Humans
Language
Male
Males
Mathematical modeling
Models, Theoretical
Occupations
Optimization
Otolaryngology
Phonetics
Practice Exercises
Signal Processing, Computer-Assisted
Sound Spectrography
Spectrographic Analysis
Spectrum analysis
Speech Acoustics
Speech Production Measurement
Time Factors
Vocal exercising
Voice Quality
Voice Training
Mathematical modeling
Voice quality
Spectrum analysis
Vocal exercising
Optimization
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Abstract A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking voice, for example, among actors. The actor's or speaker's formant (resembling the singer's formant) can be established by certain vocal training. This study investigates the origin of the speaker's formant. The immediate effects of a vocal exercise series on speaking voice were studied in a Finnish male actor, who is an experienced teacher of the exercises. They consist of nasal vowel syllable strings and words containing nasals. Before and after a 30-minute exercising, the subject (1) read aloud at three loudness levels and (2) phonated the Finnish vowels at habitual level. Formant frequencies were estimated from spectra of the vowel samples. LTAS was made and equivalent sound level ( L eq) was measured for the text samples. Formant frequencies were used as the input for a one-dimensional (1D) mathematical model. After the exercise, the peak at 3.5 kHz in the LTAS of the reading samples was stronger, although L eq was the same as before, suggesting a level-independent resonance change. Reading samples after exercising were evaluated to sound better in voice quality than before exercising. The strong peak at 3.5 kHz was present in all vowels, and it was mainly formed by clustering of F 4 and F 5. A 1D model-based optimization suggested that this kind of a formant cluster could be best established by simultaneously narrowing the epilaryngeal tube, widening the pharynx and narrowing the front of the oral cavity.
AbstractList A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking voice, for example, among actors. The actor's or speaker's formant (resembling the singer's formant) can be established by certain vocal training. This study investigates the origin of the speaker's formant.HYPOTHESISA strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking voice, for example, among actors. The actor's or speaker's formant (resembling the singer's formant) can be established by certain vocal training. This study investigates the origin of the speaker's formant.The immediate effects of a vocal exercise series on speaking voice were studied in a Finnish male actor, who is an experienced teacher of the exercises. They consist of nasal vowel syllable strings and words containing nasals. Before and after a 30-minute exercising, the subject (1) read aloud at three loudness levels and (2) phonated the Finnish vowels at habitual level.STUDY DESIGN AND SETTINGThe immediate effects of a vocal exercise series on speaking voice were studied in a Finnish male actor, who is an experienced teacher of the exercises. They consist of nasal vowel syllable strings and words containing nasals. Before and after a 30-minute exercising, the subject (1) read aloud at three loudness levels and (2) phonated the Finnish vowels at habitual level.Formant frequencies were estimated from spectra of the vowel samples. LTAS was made and equivalent sound level (L(eq)) was measured for the text samples. Formant frequencies were used as the input for a one-dimensional (1D) mathematical model.METHODSFormant frequencies were estimated from spectra of the vowel samples. LTAS was made and equivalent sound level (L(eq)) was measured for the text samples. Formant frequencies were used as the input for a one-dimensional (1D) mathematical model.After the exercise, the peak at 3.5 kHz in the LTAS of the reading samples was stronger, although L(eq) was the same as before, suggesting a level-independent resonance change. Reading samples after exercising were evaluated to sound better in voice quality than before exercising. The strong peak at 3.5 kHz was present in all vowels, and it was mainly formed by clustering of F₄ and F₅.RESULTSAfter the exercise, the peak at 3.5 kHz in the LTAS of the reading samples was stronger, although L(eq) was the same as before, suggesting a level-independent resonance change. Reading samples after exercising were evaluated to sound better in voice quality than before exercising. The strong peak at 3.5 kHz was present in all vowels, and it was mainly formed by clustering of F₄ and F₅.A 1D model-based optimization suggested that this kind of a formant cluster could be best established by simultaneously narrowing the epilaryngeal tube, widening the pharynx and narrowing the front of the oral cavity.CONCLUSIONSA 1D model-based optimization suggested that this kind of a formant cluster could be best established by simultaneously narrowing the epilaryngeal tube, widening the pharynx and narrowing the front of the oral cavity.
Summary Hypothesis A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking voice, for example, among actors. The actor's or speaker's formant (resembling the singer's formant) can be established by certain vocal training. This study investigates the origin of the speaker's formant. Study Design and Setting The immediate effects of a vocal exercise series on speaking voice were studied in a Finnish male actor, who is an experienced teacher of the exercises. They consist of nasal vowel syllable strings and words containing nasals. Before and after a 30-minute exercising, the subject (1) read aloud at three loudness levels and (2) phonated the Finnish vowels at habitual level. Methods Formant frequencies were estimated from spectra of the vowel samples. LTAS was made and equivalent sound level ( Leq ) was measured for the text samples. Formant frequencies were used as the input for a one-dimensional (1D) mathematical model. Results After the exercise, the peak at 3.5 kHz in the LTAS of the reading samples was stronger, although Leq was the same as before, suggesting a level-independent resonance change. Reading samples after exercising were evaluated to sound better in voice quality than before exercising. The strong peak at 3.5 kHz was present in all vowels, and it was mainly formed by clustering of F4 and F5. Conclusions A 1D model-based optimization suggested that this kind of a formant cluster could be best established by simultaneously narrowing the epilaryngeal tube, widening the pharynx and narrowing the front of the oral cavity.
A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking voice, for example, among actors. The actor's or speaker's formant (resembling the singer's formant) can be established by certain vocal training. This study investigates the origin of the speaker's formant. The immediate effects of a vocal exercise series on speaking voice were studied in a Finnish male actor, who is an experienced teacher of the exercises. They consist of nasal vowel syllable strings and words containing nasals. Before and after a 30-minute exercising, the subject (1) read aloud at three loudness levels and (2) phonated the Finnish vowels at habitual level. Formant frequencies were estimated from spectra of the vowel samples. LTAS was made and equivalent sound level ( L eq) was measured for the text samples. Formant frequencies were used as the input for a one-dimensional (1D) mathematical model. After the exercise, the peak at 3.5 kHz in the LTAS of the reading samples was stronger, although L eq was the same as before, suggesting a level-independent resonance change. Reading samples after exercising were evaluated to sound better in voice quality than before exercising. The strong peak at 3.5 kHz was present in all vowels, and it was mainly formed by clustering of F 4 and F 5. A 1D model-based optimization suggested that this kind of a formant cluster could be best established by simultaneously narrowing the epilaryngeal tube, widening the pharynx and narrowing the front of the oral cavity.
A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking voice, for example, among actors. The actor's or speaker's formant (resembling the singer's formant) can be established by certain vocal training. This study investigates the origin of the speaker's formant. The immediate effects of a vocal exercise series on speaking voice were studied in a Finnish male actor, who is an experienced teacher of the exercises. They consist of nasal vowel syllable strings and words containing nasals. Before and after a 30-minute exercising, the subject (1) read aloud at three loudness levels and (2) phonated the Finnish vowels at habitual level. [PUBLICATION ABSTRACT]
A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking voice, for example, among actors. The actor's or speaker's formant (resembling the singer's formant) can be established by certain vocal training. This study investigates the origin of the speaker's formant. The immediate effects of a vocal exercise series on speaking voice were studied in a Finnish male actor, who is an experienced teacher of the exercises. They consist of nasal vowel syllable strings and words containing nasals. Before and after a 30-minute exercising, the subject (1) read aloud at three loudness levels and (2) phonated the Finnish vowels at habitual level. Formant frequencies were estimated from spectra of the vowel samples. LTAS was made and equivalent sound level (L(eq)) was measured for the text samples. Formant frequencies were used as the input for a one-dimensional (1D) mathematical model. After the exercise, the peak at 3.5 kHz in the LTAS of the reading samples was stronger, although L(eq) was the same as before, suggesting a level-independent resonance change. Reading samples after exercising were evaluated to sound better in voice quality than before exercising. The strong peak at 3.5 kHz was present in all vowels, and it was mainly formed by clustering of F₄ and F₅. A 1D model-based optimization suggested that this kind of a formant cluster could be best established by simultaneously narrowing the epilaryngeal tube, widening the pharynx and narrowing the front of the oral cavity.
Hypothesis: A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking voice, for example, among actors. The actor's or speaker's formant (resembling the singer's formant) can be established by certain vocal training. This study investigates the origin of the speaker's formant. Study Design and Setting: The immediate effects of a vocal exercise series on speaking voice were studied in a Finnish male actor, who is an experienced teacher of the exercises. They consist of nasal vowel syllable strings and words containing nasals. Before and after a 30-minute exercising, the subject (1) read aloud at three loudness levels and (2) phonated the Finnish vowels at habitual level. Methods: Formant frequencies were estimated from spectra of the vowel samples. LTAS was made and equivalent sound level (Leq) was measured for the text samples. Formant frequencies were used as the input for a one-dimensional (1D) mathematical model. Results: After the exercise, the peak at 3.5 kHz in the LTAS of the reading samples was stronger, although Leq was the same as before, suggesting a level-independent resonance change. Reading samples after exercising were evaluated to sound better in voice quality than before exercising. The strong peak at 3.5 kHz was present in all vowels, and it was mainly formed by clustering of F4 and F5. Conclusions: A 1D model-based optimization suggested that this kind of a formant cluster could be best established by simultaneously narrowing the epilaryngeal tube, widening the pharynx and narrowing the front of the oral cavity. Adapted from the source document
Author Leino, Timo
Laukkanen, Anne-Maria
Radolf, Vojtěch
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  givenname: Vojtěch
  surname: Radolf
  fullname: Radolf, Vojtěch
  organization: Department of Dynamics and Vibrations, Institute of Thermomechanics, the Academy of Sciences of the Czech Republic, Prague, Czech Republic
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Issue 2
Keywords Mathematical modeling
Voice quality
Spectrum analysis
Vocal exercising
Optimization
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Snippet A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking voice, for...
Summary Hypothesis A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male...
Hypothesis: A strong peak between 3 and 4 kHz in the long-term average spectrum (LTAS) of speech has been found to be one correlate of a good male speaking...
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SubjectTerms Acoustics
Computer Simulation
Formants
Fourier Analysis
Humans
Language
Male
Males
Mathematical modeling
Models, Theoretical
Occupations
Optimization
Otolaryngology
Phonetics
Practice Exercises
Signal Processing, Computer-Assisted
Sound Spectrography
Spectrographic Analysis
Spectrum analysis
Speech Acoustics
Speech Production Measurement
Time Factors
Vocal exercising
Voice Quality
Voice Training
Title Formation of the Actor's/Speaker's Formant: A Study Applying Spectrum Analysis and Computer Modeling
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https://dx.doi.org/10.1016/j.jvoice.2009.10.002
https://www.ncbi.nlm.nih.gov/pubmed/20456915
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Volume 25
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