Presentation is loading. Please wait.

Presentation is loading. Please wait.

P105 Lecture #26 visuals 18 March 2013.

Published byAmy Morrison Modified over 6 years ago

Similar presentations

Presentation on theme: "P105 Lecture #26 visuals 18 March 2013."— Presentation transcript:

1 P105 Lecture #26 visuals 18 March 2013

2 Anatomy of the Human Vocal Apparatus
Illustration from E.J. Heller, “Why you hear what you hear”

3 Vocal Tract Anatomy – Another View
Illustration from J. Sundberg, “The Acoustics of the Singing Voice”

4 Vocal Tract Anatomy – Another View
Sound wave production starts with the larynx

5 Vocal Tract Anatomy – The Larynx
Frontal view: View from above: Illustrations from E.J. Heller, “Why you hear what you hear”

6 Bernoulli Effect Discovered by Daniel Bernoulli in the mid 1700’s
Essentially a consequence of conservation of energy Statement is that pressure and flow velocity are inversely related for incompressible (approx. constant density) fluid Mathematically: p1 + ½ r1 v12 = p2 + ½ r2 v22 (where p = pressure, r = density, v = velocity)

7 Function of the Vocal Folds
Can think of the vocal folds as a mass/spring system. Operates via Bernoulli Effect: expulsion of air from lungs  high flow through glottal opening Low pressure closes vocal folds flow stops folds open Repeat. Illustration from A.H. Benade, “Fundamentals of musical acoustics”

8 Net Result: Periodic expulsion of “puffs” of air from lungs
Top: volume velocity vs time for sound production at 125 Hz (male voice); Bottom: Power spectrum falls at 12 dB per octave Fourier Spectrum: From Rossing, Wheeler & Moore, The Science of Sound

9 Sound Production Summary
Expulsion of air from lungs induces vibration of vocal folds (via the Bernoulli effect). The vocal folds open and close with a frequency dictated by anatomy (geometry) plus applied tension (contraction of muscles connecting folds with cartilage). Give rise to periodic puff emission with fundamentals around 100 Hz (male), 200 Hz (female), 300 Hz (children). These are just the vocal fold vibration frequencies. Thus, the vocal fold vibration frequency sets the pitch To understand harmonic structure of speech must also take into account the filtering effect of the vocal tract  next up.

Download ppt "P105 Lecture #26 visuals 18 March 2013."

Similar presentations

Vowel Formants in a Spectogram Nural Akbayir, Kim Brodziak, Sabuha Erdogan.

Vowel Formants in a Spectogram Nural Akbayir, Kim Brodziak, Sabuha Erdogan.
Physical modeling of speech XV Pacific Voice Conference PVSF-PIXAR 3-11-05 Brad Story Dept. of Speech, Language and Hearing Sciences University of Arizona.

Physical modeling of speech XV Pacific Voice Conference PVSF-PIXAR Brad Story Dept. of Speech, Language and Hearing Sciences University of Arizona.
Auditory Neuroscience - Lecture 1 The Nature of Sound auditoryneuroscience.com/lectures.

Auditory Neuroscience - Lecture 1 The Nature of Sound auditoryneuroscience.com/lectures.
MUSIC 150 MUSICAL ACOUSTICS BRASS INSTRUMENTS REFERENCE: CHAPTER 11 IN SCIENCE OF SOUND CHAPTER 14 IN THE PHYSICS OF MUSICAL INSTRUMENTS.

MUSIC 150 MUSICAL ACOUSTICS BRASS INSTRUMENTS REFERENCE: CHAPTER 11 IN SCIENCE OF SOUND CHAPTER 14 IN THE PHYSICS OF MUSICAL INSTRUMENTS.
The Bernoulli Principle Magan Fowler. Daniel Bernoulli 1700-1782 Bernoulli was a Swiss mathematician and physicist. He discovered this principle while.

The Bernoulli Principle Magan Fowler. Daniel Bernoulli Bernoulli was a Swiss mathematician and physicist. He discovered this principle while.
ACOUSTICS OF SPEECH AND SINGING MUSICAL ACOUSTICS Science of Sound, Chapters 15, 17 P. Denes & E. Pinson, The Speech Chain (1963, 1993) J. Sundberg, The.

ACOUSTICS OF SPEECH AND SINGING MUSICAL ACOUSTICS Science of Sound, Chapters 15, 17 P. Denes & E. Pinson, The Speech Chain (1963, 1993) J. Sundberg, The.
Anatomy of the vocal mechanism

Anatomy of the vocal mechanism
The Human Voice. I. Speech production 1. The vocal organs

The Human Voice. I. Speech production 1. The vocal organs
The Human Voice Chapters 15 and 17. Main Vocal Organs Lungs Reservoir and energy source Larynx Vocal folds Cavities: pharynx, nasal, oral Air exits through.

The Human Voice Chapters 15 and 17. Main Vocal Organs Lungs Reservoir and energy source Larynx Vocal folds Cavities: pharynx, nasal, oral Air exits through.
Investigating The Voice. The voice follows the rules of physics… The pitch of a vocal sound is affected by the air pressure in the lungs, length and tension.

Investigating The Voice. The voice follows the rules of physics… The pitch of a vocal sound is affected by the air pressure in the lungs, length and tension.
Speech Science Speech production II – Phonation Version WS 2007/8.

Speech Science Speech production II – Phonation Version WS 2007/8.
Structure of Spoken Language

Structure of Spoken Language
PH 105 Dr. Cecilia Vogel Lecture 14. OUTLINE  consonants  vowels  vocal folds as sound source  formants  speech spectrograms  singing.

PH 105 Dr. Cecilia Vogel Lecture 14. OUTLINE  consonants  vowels  vocal folds as sound source  formants  speech spectrograms  singing.
Eva Björkner Helsinki University of Technology Laboratory of Acoustics and Audio Signal Processing HUT, Helsinki, Finland KTH – Royal Institute of Technology.

Eva Björkner Helsinki University of Technology Laboratory of Acoustics and Audio Signal Processing HUT, Helsinki, Finland KTH – Royal Institute of Technology.
1 THE HUMAN VOICE LECTURE 2 ELC 523E. 2 WHAT IS HUMAN VOICE sound made by a human being using the vocal folds for talking, singing, laughing, crying,

1 THE HUMAN VOICE LECTURE 2 ELC 523E. 2 WHAT IS HUMAN VOICE sound made by a human being using the vocal folds for talking, singing, laughing, crying,
Please be Seated. The physics of sound: What makes musical tones different? Special Lecture for the 2005 Year of Physics in coordination with the French.

Please be Seated. The physics of sound: What makes musical tones different? Special Lecture for the 2005 Year of Physics in coordination with the French.
PHYS 103 lecture 29 voice acoustics. Vocal anatomy Air flow through vocal folds produces “buzzing” (like lips) Frequency is determined by thickness (mass)

PHYS 103 lecture 29 voice acoustics. Vocal anatomy Air flow through vocal folds produces “buzzing” (like lips) Frequency is determined by thickness (mass)
L 17 The Human Voice. The Vocal Tract epiglottis.

L 17 The Human Voice. The Vocal Tract epiglottis.
Topic 3b: Phonation.

Topic 3b: Phonation.
ACOUSTICS OF SINGING MUSICAL ACOUSTICS Science of Sound, Chapters 15, 17.

ACOUSTICS OF SINGING MUSICAL ACOUSTICS Science of Sound, Chapters 15, 17.

Similar presentations

Ads by Google