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Ling2005 week3

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Review nature of sound' (week 2) Complex waves. Waveforms and their spectra ... Sound waves and barometric pressure waves: Differences? ... – PowerPoint PPT presentation

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Title: Ling2005 week3


1
Ling2005 week3
  • Topics
  • Review nature of sound (week 2)
  • Complex waves
  • Waveforms and their spectra
  • Fundamental frequency
  • Frequency analysis

2
Review Week 2 Preliminaries Acoustic Phonetics
  • Sound waves and barometric pressure waves
    Differences?
  • Compare with regard to wavelength, velocity,
    period, frequency.
  • Define pressure.
  • Force per unit area
  • Why do we need a medium for sound?
  • Sound transmission relies on kinetic energy of
    particles in a medium
  • Descriptive terms for sound quality?
  • Pleasant noisy, mellow harsh, .
  • Three ways of classifying sounds/signals?
  • Periodic/aperiodic, transient/continuous,
    simple/complex

3
Review continued
  • Properties of waves
  • Amplitude
  • Displacement from baseline arbitrary unit but
    see decibels
  • Period
  • Time between wave fronts Measured in
    milliseconds
  • Frequency
  • Number of repeats per unit time. Measured in Hz
  • Auditory and acoustic dimensions of sound
  • Perceptual versus physical properties.
  • Pitch frequency
  • Loudness Pressure or Intensity
  • Quality/Timbre distribution of spectral energy.

4
Perceptual and acoustic properties of English
consonants
  • How may we map perceptual relations between
    speech sounds?
  • Obtaining similarity judgments
  • Mapping perceptual distances multi-dimensional
    scaling.
  • What features might be responsible for clustering
    the sounds in perceptual space?
  • The X-axis?
  • Stimulus duration (time)?
  • The Y-axis?
  • A resonance/sonority vs noise/hiss dimension?
  • Correlates with manner of articulation
  • Are these general auditory properties of sounds
    or are they specific to sounds of speech
    (phonetic properties)?

5
Waveform and spectrum
  • There are two complementary ways of looking at
    signals
  • As a waveform in the time domain
  • As a spectrum in the frequency domain
  • Consider this sound
  • What kind of sound is it?
  • Can you guess its frequency?

6
A simple (sinusoidal) wave
  • Its waveform
  • Its spectrum

7
The spectrum
  • A waveform shows amplitude fluctuations in a
    signal over time.
  • A spectrum shows the distribution of frequency
    (energy) components present in a signal
  • their relative strength (magnitude) and where
    they are located in the frequency domain.
  • A spectrum is a snapshot of the energy of the
    signal at a particular point in time
    (instantaneous spectrum),
  • Or the average energy present over a period of
    time (the long-term spectrum).
  • In practical terms, a spectrum must always be
    computed over some minimal time period (Hence the
    instantaneous spectrum is an idealization.

8
Spectra of complex signals
  • What is a complex signal?
  • One with more than a single frequency component.
  • This is a (minimally) complex signal

9
Notes on previous slide
  • How many periods are highlighted in the waveform?
  • How many frequency components are present in the
    spectrum?
  • Two
  • What are their respective frequencies?
  • 170 Hz and (approximately) 240 Hz.
  • On the lower part of the spectrum we see spectral
    time window over which the spectrum was
    calculated.
  • How many periods of the signal are captured in
    the spectral window?
  • Approximately four.
  • The spectral window has a certain shape
    (envelope). The envelope indicates the weighting
    applied at each time point about the centre of
    the spectral window. How would you describe the
    shape of the window?
  • Like a normal curve (Gaussian).

10
More waves and their spectra
  • Recall the sounds we examined last week?
  • The buzz

11
Notes on previous slide
  • The buzz is made up of a series of rapid clicks
    (pops).
  • The time between clicks defines its Period and
    (fundamental) Frequency.
  • From the spectrum, you see that the buzz has many
    frequency components.
  • Each of these components occurs at a regular
    frequency interval.
  • This frequency interval corresponds to the
    frequency of repetition of the waveform. It is
    known as the fundamental frequency of the
    signal.

12
White noise
  • A continuous, aperiodic signal.
  • Has a continuous spectrum an infinite number of
    frequency components.
  • Has no fundamental frequency.

13
A quasi-periodic signal
  • This sounds like a sinusoid in noise.
  • A composite signal with periodic and aperiodic
    components

14
Questions on previous slide
  • Can you distinguish the periodic and the
    aperiodic components of this signal on the
    spectrum?
  • Does this signal have a fundamental frequency?
  • If so, what is that frequency?
  • Ans 366 Hz.
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