landmark-based speech recognition: spectrogram reading, support vector machines, dynamic bayesian...
TRANSCRIPT
Landmark-Based Speech Recognition:
Spectrogram Reading,Support Vector Machines,
Dynamic Bayesian Networks,and Phonology
Mark [email protected]
University of Illinois at Urbana-Champaign, USA
Lecture 3: Spectral Dynamics and the Production of Consonants
• International Phonetic Alphabet• Events in the Closure of a Nasal Consonant
– Formant transitions: a perturbation model– Nasalized vowel– Nasal murmur
• Events in the Release of a Stop Consonant– Pre-voicing (voiced stops in carefully read English)– Transient (stops and affricates)– Frication (stops, affricates, and fricatives)– Aspiration (aspirated stops and /h/)– Formant Transitions (any consonant-vowel transition)
• Formant Tracking– Does it help Speech Recognition?– Methods for Vowels, and for Aspiration & Nasals
• Reminder – lab 1 due Monday!
International Phonetic Alphabet: Purpose and Brief History
• Purpose of the alphabet: to provide a universal notation for the sounds of the world’s languages– “Universal” = If any language on Earth distinguishes two
phonemes, IPA must also distinguish them– “Distinguish” = Meaning of a word changes when the phoneme
changes, e.g. “cat” vs. “bat.”
• Very Brief History:– 1876: Alexander Bell publishes a distinctive-feature-based
phonetic notation in “Visible Speech: The Science of the Universal Alphabetic.” His notation is rejected as being too expensive to print
– 1886: International Phonetic Association founded in Paris by phoneticians from across Europe
– 1991: Unicode provides a standard method for including IPA notation in computer documents
International Phonetic Alphabet: Vowels
Pinyin ARPABET(Approx.)
i /u (xu) IY / UX
EY
EH
a (zhang) AE
a (ma)
Pinyin ARPABET(Approx.)
/ u (zhu) / UW
o UH
/ oa / OW
/ o AH / AO
a (ma) AA
Pinyin:e ARPA:AX
IPA: Regular Consonants
NG
ARPABET: F/V (labiodental), TH/DH (dental), S/Z (alveolar), SH/ZH (postalveolar or palatal)Pinyin: s (alveolar), x (postalveolar), sh/r (retroflex)
DX
R
HH/HV
Q
Tongue Blade Tongue Body
Y
Affricates and Doubly-Articulated Consonants
Affricates in English and Chinese: Pinyin ARPABET IPA Alveolar: c/z ts/dz Post-alveolar: q/j CH/JH tʃ/dʒ Retroflex: ch/zh ţş/ɖʐ
ARPABET WH W
Formant Transitions: A Perceptual Study
The study: (1) Synthesize speech with different formant patterns, (2) recordsubject responses. Delattre, Liberman and Cooper, J. Acoust. Soc. Am. 1955.
Nasal Murmur“the mug” “the nut” “sing a song”
Observations:Low-frequency resonance (about 300Hz) always presentLow-frequency resonance has wide bandwidth (about 150Hz)Energy of low-frequency resonance is very constantMost high-frequency resonances cancelled by zerosDifferent places of articulation have different high frequency spectraHigh-frequency spectrum is talker-dependent and variable
Events in the Release of a Stop
“Burst” = transient + frication (the part of the spectrogram whose transfer function has poles only at the front cavity resonance frequencies, not at the back cavity resonances).
Events in the Release of a StopUnaspirated (/b/) Aspirated (/t/)
Transient Frication Aspiration Voicing
Pre-voicing during ClosureTo make a voiced stop in most European languages:
Tongue root is relaxed, allowing it to expandm so that vocal folds can continue to vibrating for a little while after oral closure.
Result is a low-frequency “voice bar” that may continue well into closure.
In English, closure voicing is typical of read speech, but not casual speech.
“the bug”
Transfer Function During Transient and Frication: Poles
Front cavity resonance frequency: FR = c/4Lf
Turbulence striking an obstacle makes noise
Are Formant Frequencies Useful for Speech Recognition?
• Kopec and Bush (1992): WER(formants alone) > WER(cepstrum alone) > WER(formants and cepstrum together)
• How should we track formants?– In vowels: Autoregressive (AR) modeling (also
known as LPC)– In aspiration, nasals: Autoregressive Moving
Average (ARMA) modeling. Problem: no closed-form solution
– In aspiration, nasals: Exponentially Weighted Autoregressive (EWAR; Zheng and Hasegawa-Johnson, ICASSP 2004)
Formant Tracking for Aspiration: “Exponentially Weighted Auto-
Regressive” Model (EWAR)(Zheng and Hasegawa-Johnson, ICSLP 2004)
Summary• International Phonetic Alphabet:
– Useful on any computer with unicode– International encoding for all sounds of the world’s languages
• Events in a nasal closure:– Formant transitions (perturbation model)– Vowel nasalization (sum of TFs)– Nasal murmur (impedance match at juncture)
• Events in release of a stop:– Pre-voicing in English voiced stops (read speech)– Transient (dp/dt ~ dA/dt)– Frication ((zero at f=0)/(front cavity resonances))– Aspiration ((zero at f=0)/(same poles as the vowel))
• Formant tracking– In a vowel: use LPC– In aspiration, frication, or nasal murmur: ARMA is theoretically
optimum, but computationally expensive– Aspiration etcetera: EWAR can be a good approximation to ARMA