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

Slides:

Advertisements

Similar presentations

Acoustic/Prosodic Features

Advertisements

Harmonics October 29, 2012 Where Were We? Were halfway through grading the mid-terms. For the next two weeks: more acoustics Its going to get worse before.

Digital Signal Processing

Spectral Analysis Feburary 24, 2009 Sorting Things Out 1.TOBI transcription homework rehash. And some structural reminders. 2.On Thursday: back in the.

Announcements Notebook and Folder Check!! Homework!! Complete Note summary for Characteristics of Waves- will be checked with notes! Vocabulary Cards Due.

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

Properties of Sound Neil Freebern. Sound Sound is produced when something vibrates. Vibrations disturb the air, creating variations in air pressure. Variation.

The frequency spectrum

Frequency, Pitch, Tone and Length October 15, 2012 Thanks to Chilin Shih for making some of these lecture materials available.

Foundations of Physics

Tone, Accent and Stress February 14, 2014 Practicalities Production Exercise #2 is due at 5 pm today! For Monday after the break: Yoruba tone transcription.

PHONETICS AND PHONOLOGY

Introduction to Acoustics Words contain sequences of sounds Each sound (phone) is produced by sending signals from the brain to the vocal articulators.

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

Pitch Tracking + Prosody January 20, 2009 The Plan for Today One announcement: On Thursday, we’ll meet in the Tri-Faculty Computer Lab (SS 018) Section.

Syllables and Stress October 25, 2010 Practicalities Some homeworks to return… Review session on Wednesday. Mid-term on Friday. Note: transcriptions.

Sensory Systems: Auditory. What do we hear? Sound is a compression wave: When speaker is stationary, the air is uniformly dense Speaker Air Molecules.

1 Waves and Vibrations Adapted from Physics: Mr. Maloney

Basic Acoustics + Digital Signal Processing September 11, 2014.

The Human Ear fancy sub-heading. Parts of the ear Three main parts: The outer ear consists of the pinna, ear canal and eardrum The middle ear consists.

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.

Vibrations and Waves Chapter 11.

Automatic Pitch Tracking September 18, 2014 The Digitization of Pitch The blue line represents the fundamental frequency (F0) of the speaker’s voice.

Resonance, Revisited March 4, 2013 Leading Off… Project report #3 is due! Course Project #4 guidelines to hand out. Today: Resonance Before we get into.

Automatic Pitch Tracking January 16, 2013 The Plan for Today One announcement: Starting on Monday of next week, we’ll meet in Craigie Hall D 428 We’ll.

Vibration and Waves AP Physics Chapter 11.

15.1 Properties of Sound  If you could see atoms, the difference between high and low pressure is not as great.  The image below is exaggerated to show.

Harmonics November 1, 2010 What’s next? We’re halfway through grading the mid-terms. For the next two weeks: more acoustics It’s going to get worse before.

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

Experimental Phonetics Session 1- Sound Waves Golnaz Modarresi Ghavami.

Waves A repeating movement or disturbance that transfers energy...

Speech Science Oct 7, 2009.

Syllables and Stress October 19, 2012 Practicalities Mid-sagittal diagrams to turn in! Plus: homeworks to hand back. Production Exercise #2 is still.

Introduction to SOUND.

David Meredith Aalborg University

Pitch Tracking + Prosody January 17, 2012 The Plan for Today One announcement: On Thursday, we’ll meet in the Craigie Hall D 428 We’ll be working on.

Formants, Resonance, and Deriving Schwa March 10, 2009.

Frequency, Pitch, Tone and Length October 16, 2013 Thanks to Chilin Shih for making some of these lecture materials available.

Key Terms WavelengthCompressions WavelengthCompressions FrequencyRarefactions FrequencyRarefactions PitchNodes PitchNodes HarmonicAntinodes HarmonicAntinodes.

Resonance October 23, 2014 Leading Off… Don’t forget: Korean stops homework is due on Tuesday! Also new: mystery spectrograms! Today: Resonance Before.

Digital Signal Processing January 16, 2014 Analog and Digital In “reality”, sound is analog. variations in air pressure are continuous = it has an amplitude.

Voice Quality + Korean Stops October 16, 2014 Don’t Forget! The mid-term is on Tuesday! So I have a review sheet for you. For the mid-term, we will just.

Vowel Acoustics March 10, 2014 Some Announcements Today and Wednesday: more resonance + the acoustics of vowels On Friday: identifying vowels from spectrograms.

From Resonance to Vowels March 10, Fun Stuff (= tracheotomy) Peter Ladefoged: “To record the pressure of the air associated with stressed as opposed.

Resonance January 28, 2010 Last Time We discussed the difference between sine waves and complex waves. Complex waves can always be understood as combinations.

Tone, Accent and Quantity October 19, 2015 Thanks to Chilin Shih for making some of these lecture materials available.

Resonance March 7, 2014 Looking Ahead I’m still behind on grading the mid-term and Production Exercise #1… They should be back to you by Friday.

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

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.

Waves. What are waves? A wave is a transfer of energy from one place to another. Waves take many forms. Wave Characteristics include: –Amplitude –Wavelength.

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

Phonetics, part III: Suprasegmentals October 18, 2010.

CHAPTER 2 SINUSOIDS: THE BASIC SOUND. Hearing Science-- what is it? The study of the normal process of hearing. Acoustics--the nature of sound Anatomy.

Basic Acoustics. Sound – your ears’ response to vibrations in the air. Sound waves are three dimensional traveling in all directions. Think of dropping.

Data and Signals & Analouge Signaling

PROPERTIES OF WAVES FREQUENCY & WAVE SPEED. REVIEW A wave is a disturbance that transfers energy from place to place. In science, energy is defined as.

HOW WE TRANSMIT SOUNDS? Media and communication 김경은 김다솜 고우.

Basic Acoustics + Digital Signal Processing January 11, 2013.

Resonance October 29, 2015 Looking Ahead I’m still behind on grading the mid-term and Production Exercise #1… They should be back to you by Monday. Today:

Harmonics October 28, Where Were We? Mid-terms: our goal is to get them back to you by Friday. Production Exercise #2 results should be sent to.

"Digital Media Primer" Yue-Ling Wong, Copyright (c)2013 by Pearson Education, Inc. All rights reserved.

Sound Sound is a longitudinal wave. The source of a sound wave is something vibrating (your vocal cords, some part of a musical instrument, mosquito’s.

C-15 Sound Physics 1.

Sound & Sound Waves.

Table of Contents Introduction to Waves

Sound Energy sound is energy Sound travels on a longitudinal wave:

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

What are waves? A wave is a temporary disturbance that transfers energy from place to place.

Elements of Acoustic Phonetics

WHAT IS SOUND? Sound is a form of energy.

Presentation transcript:

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

Announcements For Friday: Production Exercise #2 is due. at 5 pm On Friday, we will talk about the suprasegmental features of language: tone, accent, stress and quantity On Monday after the break: transcription exercise on tone. Yoruba and a mystery tone language! For today, let’s start off by doing something fun. …and then let’s dig deeper into acoustics.

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

Compression Wave A wave of force travels down the line of molecules Ultimately: individual molecules vibrate back and forth, around an equilibrium point The transfer of force sets up what is called a compression wave. What gets “compressed” is the space between molecules

Compression Wave area of high pressure (compression) area of low pressure (rarefaction) Compression waves consist of alternating areas of high and low pressure

Pressure Level Meters Microphones Have diaphragms, which move back and forth with air pressure variations Pressure variations are converted into electrical voltage Ears Eardrums move back and forth with pressure variations Amplified by components of middle ear Eventually converted into neurochemical signals We experience fluctuations in air pressure as sound

Measuring Sound What if we set up a pressure level meter at one point in the wave? Time pressure level meter How would pressure change over time?

Sine Waves The reading on the pressure level meter will fluctuate between high and low pressure values In the simplest case, the variations in pressure level will look like a sine wave. time pressure

Other Basic Sinewave concepts Sinewaves are periodic; i.e., they recur over time. The period is the amount of time it takes for the pattern to repeat itself. The frequency is the number of times, within a given timeframe, that the pattern repeats itself. Frequency = 1 / period usually measured in cycles per second, or Hertz The peak amplitude is the the maximum amount of vertical displacement in the wave = maximum/minimum amount of pressure

Complex Waves When more than one sinewave gets combined, they form a complex wave. At any given time, each wave will have some amplitude value. A 1 (t 1 ) := Amplitude value of sinewave 1 at time 1 A 2 (t 1 ) := Amplitude value of sinewave 2 at time 1 The amplitude value of the complex wave is the sum of these values. A c (t 1 ) = A 1 (t 1 ) + A 2 (t 1 )

Complex Wave Example Take waveform 1: high amplitude low frequency Add waveform 2: low amplitude high frequency The sum is this complex waveform: + =

Other Examples 480 Hz tone 620 Hz tone the combo = ?

Fundamental Frequency The fundamental frequency of a complex wave is the frequency at which the complex wave repeats itself. = greatest common denominator of frequencies of component waves. Greatest common denominator = largest number that two (or more) numbers can be divided by to yield an integer (whole number) value. Q: What’s the fundamental frequency of a complex wave consisting of 600 Hz and 800 Hz tones? How about one with 120 Hz and 150 Hz tones?

Linguistically Speaking In speech, the fundamental frequency of voiced sounds is based on the rate at which the vocal folds open and close. The wave set up by the vocal folds is a complex wave.

Complex Wave Visual Combination of 100 Hz and 300 Hz wave. Voicing sort of looks like this, but it’s even more complex:

Why Should You Care? The modulation of fundamental frequency in speech can have linguistic meaning. Tone Pitch Accent Stress Intonation Since this modulation can occur (relatively) independently of the stream of vowel and consonant segments in speech… these linguistic properties are often referred to as suprasegmentals.

Suprasegmentals Suprasegmentals are phonetic features of speech which are “above the segment” Tone/Accent/Intonation Quantity Stress “Suprasegmental features are established by a comparison of items in a sequence.” --Ilse Lehiste (1970)  Suprasegmental features are always defined in a relative manner.

Where Tone Comes From Here’s a waveform for my vowel : The acoustic shockwave of each opening of the vocal folds shows up as a vertical bar in the waveform. A “voicing bar”

Voicing Bar Close-up Individual glottal pulses

Voicing bars, really close up The fundamental frequency of voicing can be calculated by measuring the period between glottal pulses. Voicing is a complex wave. (i.e., not sinusoidal)

Voicing bars, really close up Frequency = 1 / period In this case, period =.01 seconds, so frequency = ? period

Pitch Tracks Measuring the fundamental frequency (F0) at every step in a sound file yields a pitch track. Time on the x-axis. Fundamental frequency on the y-axis. F0 time I’d like to collect sea shells this after noon

Just So You Know Praat has an automatic pitch tracker. Check it out. It can be messed up by: voiceless sounds obstruents (stops, fricatives, affricates) Also, it can sometimes double or halve the correct fundamental frequency. I’ll spare you the technical reasons why. In general, though, it works well.