Voicing + Basic Acoustics October 14, 2015 Agenda Production Exercise #2 is due on Friday! No transcription exercise this Friday! Today, we’ll begin.

Slides:

Advertisements

Similar presentations

Airstream Mechanisms February 3, 2014 Memo! 1.There are homeworks due today! 2.This Friday: transcription exercise on airstream mechanisms. Amharic,

Advertisements

The Source January 26, 2010 Voice Quality Review ATLTMCFlow Modalmoderatevariesmoderatemed. Creakyhighlowhighlow Breathylowvarieslowhigh.

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.

PHONETICS & PHONOLOGY COURSE WINTER TERM 2014/2015.

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.

Structure of Spoken Language

Introduction to linguistics – The sounds of German R21118 Dr Nicola McLelland.

THE PRODUCTION OF SPEECH SOUNDS

Phonetics (Part 1) Dr. Ansa Hameed.

Speech Anatomy and Articulation

Unit 4 Articulation I.The Stops II.The Fricatives III.The Affricates IV.The Nasals.

Chapter 2 Introduction to articulatory phonetics

Phonetics III: Dimensions of Articulation October 15, 2012.

Phonetics: The Sounds of Language CONSONANT SOUNDS.

Linguistics I Chapter 4 The Sounds of Language.

Fricatives + Voice Onset Time March 31, 2014 In the Year 2000 Today: we’ll wrap up fricatives… and then move on to stops. This Friday, there will be.

The sounds of language Phonetics Chapter 4.

Phonetics HSSP Week 5.

Basic Acoustics October 12, 2012 Agenda The Final Exam schedule has been posted: Tuesday, December 18 th, from 8-10 am Location TBD I will look into.

Phonation + Laryngeal Physiology January 14, 2010.

Phonetics Phonetics: It is the science of speech sounds. It is the study of the production and reception of speech sounds. It is concerned with the sounds.

LE 222 Sound and English Sound system

Clicks + Trills February 5, 2014 Announcements and Such 1.I’m in the midst of grading Production Exercise #1. You should hear something about it by tonight.

Acoustic Phonetics 3/9/00. Acoustic Theory of Speech Production Modeling the vocal tract –Modeling= the construction of some replica of the actual physical.

1 L103: Introduction to Linguistics Phonetics (consonants)

LING 001 Introduction to Linguistics Fall 2010 Sound Structure I: Phonetics Acoustic phonetics Jan. 27.

SPEECH ORGANS & ARTICULATION

Voice Quality + Stop Acoustics

Phonetics: Dimensions of Articulation October 13, 2010.

The end of vowels + The beginning of fricatives November 19, 2012.

Voice Onset Time + Voice Quality

Phonetics Around the World Most of the sound files for this lecture can be found online at: October 22,

Linguistics The fourth week. Chapter 2 The Sounds of Language 2.1 Introduction 2.1 Introduction 2.2 Phonetics 2.2 Phonetics.

Trills and Voicing October 10, 2012 Announcements and Such 1.Homeworks are due! 2.And there are homeworks to hand back… 3.Also: Production Exercise #2.

Frequency, Pitch, Tone and Length February 12, 2014 Thanks to Chilin Shih for making some of these lecture materials available.

Phonetics Definition Speech Organs Consonants vs. Vowels

Phonetics Introduction Phonetics Articulatory phonetics

Anatomy and Physiology of the Speech Mechanism. Major Biological Systems Respiratory System Laryngeal System Supralaryngeal System.

Phonation + Voice Quality Feburary 11, 2014 Weekday Update Course project report #2 is due right now! I have guidelines for course project report #3,

Voicing + Basic Acoustics October 14, 2015 Agenda Production Exercise #2 is due on Friday! No transcription exercise this Friday! Today, we’ll begin.

Stop + Approximant Acoustics

Trills October 7, 2015 Announcements and Such 1.I finished grading Production Exercise #1 last night. You should have gotten an about it! 2.Production.

Phonetics Overview/review Transcription Describing Phones Drills Overview/review Transcription Describing Phones Drills.

Airstream Mechanisms + Trills October 7, 2013 Announcements and Such 1.Next transcription homework is due on Wednesday. 2.I’m in the midst of grading.

Airstream Mechanisms October 5, 2015.

Trills and Voicing October 13, 2010 Back to Aerodynamics Aerodynamic method #1: Stops A.start air flow Boyle’s Law and all that. B.stop air flow Just.

Unit Two The Organs of speech

Phonation Physiology Phonation = series of openings and closings of the vocal folds Two phases 1.Prephonation phase: period during which VFs move from.

Whip Around  What 3 adjectives best describe you?  Think about this question and be prepared to share aloud with the class.

Basic Acoustics + Digital Signal Processing January 11, 2013.

ARTICULATORY PHONETICS

Phonetics Dimensions of Articulation

Structure of Spoken Language

Sounds of Language: fənɛ́tɪks

Describing English Consonants

Overview/review Transcription Describing Consonants

Phonetics: The Sounds of Language

Voiced sounds Which sounds are fully voiced? baby dog today egg

Presentation on Organs of Speech

Speech is made up of sounds.

Review of Catford.

Phonetics & Phonology.

Remember me? The number of times this happens in 1 second determines the frequency of the sound wave.

Phonetics: The Sounds of Language

S. M. Joshi College, Hadapsar, Pune-28.

PHONETICS AND PHONOLOGY

Organs of Speech.

Presentation transcript:

Voicing + Basic Acoustics October 14, 2015

Agenda Production Exercise #2 is due on Friday! No transcription exercise this Friday! Today, we’ll begin working on the basic principles of acoustics. Next time, we’ll move on to suprasegmentals Pitch, Tone, length, etc. The mid-term is on Friday of next week. I’ll post a list of topics/concepts to review over the weekend; We’ll discuss the mid-term more next Wednesday.

Vocal Fold Specs In bilabial trills, lips open and close 25 times a second In modal voicing, the glottal trill cycle recurs, on average: 120 times a second for men 220 times a second for women 300+ times a second for children

Vocal Fold Specs Air rushes through vocal folds at 20 to 50 meters per second Between 72 and 180 kph (45 ~ 120 mph) Due to Bernoulli Effect, pressure between vocal folds when this occurs is very small Speed of “glottal trill” cycle depends on: thickness of vocal folds tenseness of vocal folds length of vocal folds

Vocal Fold Specs In men, vocal folds are millimeters long In women, vocal folds are millimeters long Adult male vocal folds are 2-5 millimeters thick Adult female vocal folds are slightly thinner Thicker, longer folds vibrate more slowly Think: violin strings vs. bass strings Tenseness of vocal folds can be changed to alter the speed of glottal opening and closing. Like tuning a violin or a guitar…

Terminology Frequency is the rate at which vocal folds are opening and closing measured in Hertz (cycles per second) Period is the length of time between cycles Frequency = 1 / Period Pitch is the perception of frequency Lower frequency = lower perceived pitch Higher frequency = higher perceived pitch

Laryngeal Settings We now know of two basic laryngeal settings for any pulmonic egressive sound: 1.Vocal folds are adducted (brought together) Air from lungs makes vocal folds “trill” = voiced sounds 2.Vocal folds are abducted (held apart) Air passes through glottis unobstructed = voiceless sounds

Independence Stops can be voiced or voiceless. Two anatomically independent settings: Place of articulation Voiced/Voiceless Are these two settings aerodynamically independent of each other? Is it easier to make a voiced or a voiceless stop?

Cross-linguistic Data From Ruhlen (1976), who surveyed 706 languages 75% had both voiced and voiceless stops Of the remaining 25% % had only voiceless stops 0.5% had only voiced stops  voiced stops are hard

One step further Are some voiced stops harder than others? Stop inventories: Englishptk bdgbdg Thaiptk bdbd Efiktk bdbd

More Cross-Language Data From Sherman (1975), who surveyed the stop inventories of 87 languages. 2 languages were missing voiced bilabials 21 languages were missing voiced dentals/alveolars 40 languages were missing voiced velars  voiced velars are particularly hard Why?

Place and Volume: a schematic mouth lips glottis pharynx

Place and Volume: a schematic glottis Voicing occurs when air flows through the glottis airflow

Place and Volume: a schematic glottis For air to flow across the glottis… the air pressure below the glottis must be higher than the air pressure above the glottis P below > P above P below P above

Place and Volume: a schematic glottis If there is a stop closure and… Air is flowing through the glottis… The air above the glottis will have nowhere to go P below P above stop closure

Place and Volume: a schematic glottis 1.Air pressure below the glottis will drop 2.Air pressure above the glottis will rise 3.The difference between the two will decrease P below P above stop closure

Place and Volume: a schematic glottis (P below - P above )  0 Airflow across the glottis will cease Voicing will stop P below P above stop closure

Place and Volume: a schematic glottis The further back a stop closure is made… The less volume there is above the glottis for air to flow into P below P above velar stop closure decreased volume

Place and Volume: a schematic glottis  P above will increase more rapidly as air flows through the glottis Voicing will cease more quickly P below P above velar stop closure decreased volume

More Numbers From Catford (1982), Fundamental Problems in Phonetics Lung volume = cm 3 During inhalation/exhalation, lung volume typically changes cm 3 Vocal tract volume = space between glottis and oral closure: 1.Bilabials: cm 3 2.Alveolars: cm 3 3.Velars: cm 3

Morals of the Story Voiced stops are hard because too much air gets pushed into the mouth, behind the stop closure This makes it impossible for there to be a pressure drop across the glottis. Voiced velars are worse, because the space above the glottis, behind the stop closure, is even smaller. This space gets filled up by pulmonic airflow even faster Independent articulatory gestures may interact aerodynamically They have to share the same stream of air.

Some Leftovers Velar trills? Velars often have multiple release bursts… due to the massiveness (and sluggishness) of the back of the tongue Check out an example. An alternate strategy to maintain voicing: pre-nasalization [mb], [nd], etc.

Implosive Stats Implosives often begin life as voiced stops. Trying to voice them completely can lead to them becoming implosives. Implosives are more frequently found at fronter places of articulation Bilabial:39Palatal:7 Alveolar:36Velar:5 Retroflex:1Uvular:1 The lack of more posterior implosives may be due to the lack of posterior voiced stops to begin with.

P in F ad How is sound transmitted through the air? Recall our bilabial trill scenario: Acoustics: Basics

What does sound look like? Air consists of floating air molecules Normally, the molecules are suspended and evenly spaced apart from each other What happens when we push on one molecule?

What does sound look like? The force knocks that molecule against its neighbor The neighbor, in turn, gets knocked against its neighbor The first molecule bounces back past its initial rest position initial rest position Check out some atomic bomb videos…

What does sound look like? The initial force gets transferred on down the line rest position #1 rest position #2 The first two molecules swing back to meet up with each other again, in between their initial rest positions Think: bucket brigade