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Stress-Accent and Vowel Quality in The Switchboard Corpus Steven Greenberg and Leah Hitchcock International Computer Sci

Stress-Accent and Vowel Quality in The Switchboard Corpus Steven Greenberg and Leah Hitchcock International Computer Science Institute 1947 Center Street, Berkeley, CA 94704 http://www.icsi.berkeley.edu/~steveng NIST Workshop on Large Vocabulary Continuous Speech Recognition

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Stress-Accent and Vowel Quality in The Switchboard Corpus Steven Greenberg and Leah Hitchcock International Computer Sci

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  1. Stress-Accent and Vowel Quality in The Switchboard Corpus Steven Greenberg and Leah Hitchcock International Computer Science Institute 1947 Center Street, Berkeley, CA 94704 http://www.icsi.berkeley.edu/~steveng NIST Workshop on Large Vocabulary Continuous Speech Recognition Maritime Institute of Technology, May 4, 2001

  2. There is an intimate relationship between vocalic identity, nucleic duration and stress accent in spontaneous dialogue (at least in the Switchboard corpus) Stressed syllables tend to have significantly longer nuclei than their unstressed counterparts, consistent with the findings reported by Silipo and Greenberg in previous years’ meetings regarding the OGI Stories corpus (telephone monologues) Certain vocalic classes exhibit a far greater dynamic range in duration than others Diphthongs tend to be longer than monophthongs, BUT …. The low monophthongs ([ae], [aa], [ay], [aw], [ao]) exhibit patterns of duration and dynamic range under stress (accent) similar to diphtongs The statistical patterns are consistent with the hypothesis that duration serves under many conditions as either a primary or secondary cue for vowel height (normally associated with the frequency of the first formant) Take Home Messages

  3. Moreover, the stress-accent system in spontaneous (American) English appears to be closely associated with vocalic identity Low vowels are far more likely to be fully stressed than high vowels (with the mid vowels exhibiting an intermediate probability of being stressed) Thus, the identity of a vowel can not be considered independently of stress-accent The two parameters are likely to be flip sides of the same Koine Although English is not generally considered to be a vowel-quantity language (as is Finnish), given the close relationship between stress-accent and duration, and between duration and vowel quality, there is some sense in which English (and perhaps other stress-accent languages) manifest certain properties of a “quantity” system Thus, vowel duration may be an important factor in disambiguating spoken language and therefore should be of interest to the speech recognition community Take Home Messages

  4. Prosody is supposed to pertain to extra-phonetic cues in the acoustic signal The pattern of variation over a sequence of SYLLABLES pertaining to: syllabic DURATION, AMPLITUDE and PITCH (fo) variation over time (but the plot thickens, as we shall see) What is (usually) Meant by Prosodic Stress?

  5. It supposedly provides important information about: Focus of the speaker’s attention and emphasis for the listener What is “new” and “important” information Emotional context of the utterance - surprise, sarcasm, shock, delight anger impatience, etc. Syntactic disambiguation, particularly at the clausal/sentential level e.g., interrogative, declarative forms Perceptual processing - parsing the utterance into “chunks” for reliable understanding Prosody provides a window onto the higher levels of language Can be useful for developing semantic-oriented models for speech understanding (“Information spotting”) Prosody affects pronunciation (and vice versa) Can be useful for modeling pronunciation variation in ASR Phonetic properties may be correlated with prosodic stress - THIS IS THE TOPIC FOR TODAY’S PRESENTATION Why is Prosodic Stress Important?

  6. SWITCHBOARD PHONETIC TRANSCRIPTION CORPUS (same as Phoneval-2000) Switchboard contains informal telephone dialogues 54 minutes of material that had previously been phonetically transcribed (by highly trained phonetics students from UC- Berkeley) 45.5 minutes of “pure” speech (filled pauses, junctures filtered out), consisting of: 9,991 words, 13,446 syllables, 33,370 phonetic segments All of this material had been hand-segmented at either the phonetic- segment or syllabic level by the transcribers The syllabic-segmented material was subsequently segmented at the phonetic-segment level by a special-purpose neural network trained on 72-minutes of hand-segmented Switchboard material. This automatic segmentation was manually verified The Nitty Gritty (a.k.a. the Corpus Material)

  7. AN EQUAL BALANCE OF MALE AND FEMALE SPEAKERS BROAD DISTRIBUTION OF UTTERANCE DURATIONS 2-4 sec - 40%, 4-8 sec - 50%, 8-17 sec - 10% (mean = 4.75 s) COVERAGE OF ALL (7) U.S. DIALECT REGIONS IN SWITCHBOARD A WIDE RANGE OF DISCUSSION TOPICS VARIABILITY IN DIFFICULTY (VERY EASY TO VERY HARD) Evaluation Material Details By Dialect Region By Subjective Difficulty Number of Utterances Subjective Difficulty Dialect Region

  8. 2 UC-Berkeley Linguistics students each transcribed the full 45 minutes of material (i.e., there is 100% overlap between the 2) Three levels of stress-accent were marked for each syllabic nucleus Fully stressed (78% concordance between transcribers) Completely unstressed (85% interlabeler agreement) An intermediate level of accent (neither fully stressed, nor completely unstressed (ca. 60% concordance) Hence, 95% concordance in terms of some level of stress The labels of the two transcribers were averaged In those instances where there was disagreement, the magnitude of disparity was almost always (ca. 90%) one step. Usually, disagreement signaled a genuine ambiguity in stress accent The illustrations in this presentation are based solely on those data in which both transcribers concurred (i.e., fully stressed or completely unstressed) A table containing the complete set of data is in a paper submitted to Eurospeech (in the workshop notebook) Manual Transcription of Stress Accent

  9. "Pitch is widely regarded, at least in English, as the most salient determinant of prominence. In other words, when a syllable or word is perceived as 'stressed' or 'emphasized,' it is pitch height or a change in pitch, more than length or loudness that is likely to be mainly responsible (see, for example, Fry 1958, Grimson 1980, pp. 222-226, Lehiste 1976, Fudge, 1984, ch. 1)" Clark, J. and Yallop, C. (1990) An Introduction to Phonetics and Phonology. Oxford, Blackwell, p. 280. "In fact, although it is clear that stressed syllables often have greater overall acoustic intensity than weakly stressed ones, loudness seems to be the least salient and least consistent of the three parameters of pitch, duration and loudness - at least for purposes such as signaling stress" (ibid, p. 282) “Thus, acording to the ‘general consensus’ the important parameters are (in order) - PITCH, DURATION, LOUDNESS” (the latter most closely correlated with TOTAL ENERGY (i.e., duration x amplitude, cf. further on) The “Conventional Wisdom” on Stress-Accent

  10. Although pitch range is the most important of the fo-related cues, it is not as good a predictor of stress as DURATION Amplitude Pitch Range Duration Av. Pitch OGI Stories - Pitch Doesn’t Cut the Mustard

  11. Duration x Amplitude is superior to all other combination pairs of acoustic parameters. Pitch appears redundant with duration. Duration x Amplitude Dur x Pitch Range Pitch Range x Average Dur x Pitch Av Pitch Av x Amp Pitch Range x Amp Duration Total Energy is the Best Predictor of Stress

  12. Vowel quality is generally thought to be a function primarily of two articulatory properties - both related to the motion of the tongue The front-back plane is most closely associated with the second formant frequency (or more precisely F2 - F1) and the volume of the front-cavity resonance The height parameter is closely linked to the frequency of F1 In the classic vowel “triangle” segments are positioned in terms of the tongue positions associated with their production, as follows: A Brief Primer on Vocalic Acoustics

  13. Duration/Amplitude/Int. Energy - Which? • There are supposed to be large differences in the “intrinsic” amplitude and duration of vowels • Could such differences be compensated for in terms of stress? • Let’s take a closer look!

  14. Amplitude Differences - Stressed/Unstressed • There are very small differences in amplitude between stressed and unstressed nuclei • The lax monophthongs tend to be have a slightly larger dynamic range than diphthongs

  15. Durational Differences - Stressed/Unstressed • There is a large dynamic range in duration between stressed and unstressed nuclei • Diphthongs and tense, low monophthongs tend to have a larger range than the lax monophthongs

  16. Int. Energy Differences - Stressed/Unstressed • There is a large dynamic range in integrated energy between stressed and unstressed nuclei • Diphthongs and tense, low monophthongs tend to have a larger range than the lax monophthongs

  17. Let’s return to the vowel triangle and see if it can shed light on certain patterns in the vocalic data The duration, amplitude (and their product, integrated energy, will be plotted on a 2-D grid , where the x-axis will always be in terms of hypothetical front-back tongue position (and hence remain a constant throughout the plots to follow) The y-axis will serve as the dependent measure, sometimes expressed in terms of duration, or amplitude, or their product Spatial Patterning of Duration and Amplitude

  18. Dipthongal Amplitude and Vowel Height All nuclei

  19. Monopthongal Amplitude and Vowel Height All nuclei

  20. Amplitude - Monophthongs vs. Diphthongs Monophthongs Diphthongs All nuclei

  21. Diphthongal Duration and Vowel Height All nuclei

  22. Monopthongal Duration and Vowel Height All nuclei

  23. Diphthongs Monophthongs Duration - Monophthongs vs. Diphthongs All nuclei

  24. Dipthongal Int. Energy and Vowel Height All nuclei

  25. Monopthongal Int. Energy and Vowel Height All nuclei

  26. Diphthongs Monophthongs Int. Energy - Monophthongs vs. Diphthongs All nuclei

  27. Dipthongal Amplitude and Vowel Height Stressed nuclei

  28. Dipthongal Amplitude and Vowel Height Unstressed nuclei

  29. Monopthongal Amplitude and Vowel Height Stressed nuclei

  30. Monopthongal Amplitude and Vowel Height Unstressed nuclei

  31. Amplitude - Monophthongs vs. Diphthongs Monophthongs Diphthongs Stressed Unstressed

  32. Diphthongal Duration and Vowel Height Stressed nuclei

  33. Diphphthongal Duration and Vowel Height Unstressed nuclei

  34. Monopthongal Duration and Vowel Height Stressed nuclei

  35. Monopthongal Duration and Vowel Height Unstressed nuclei

  36. Duration - Monophthongs vs. Diphthongs Monophthongs Diphthongs Stressed Unstressed

  37. Dipthongal Int. Energy and Vowel Height Stressed nuclei

  38. Dipthongal Int. Energy and Vowel Height Unstressed nuclei

  39. Monopthongal Int. Energy and Vowel Height Stressed nuclei

  40. Monopthongal Int. Energy and Vowel Height Unstressed nuclei

  41. Int. Energy - Monophthongs vs. Diphthongs Monophthongs Diphthongs Stressed Unstressed

  42. Mystery Parameter • There is one other parameter which when plotted in a vowel triangle plot shows an interesting pattern • This is - proportion of stressed an unstressed nuclei

  43. Proportion of Stress Accent and Vowel Height

  44. Amplitude - Monophthongs vs. Diphthongs Monophthongs Diphthongs All nuclei

  45. Diphthongs Monophthongs Duration - Monophthongs vs. Diphthongs All nuclei

  46. Diphthongs Monophthongs Int. Energy - Monophthongs vs. Diphthongs All nuclei

  47. There is an intimate relationship between vocalic identity, nucleic duration and stress accent in spontaneous dialogue (at least in the Switchboard corpus) Stressed syllables tend to have significantly longer nuclei than their unstressed counterparts, consistent with the findings reported by Silipo and Greenberg in previous years’ meetings regarding the OGI Stories corpus (telephone monologues) Certain vocalic classes exhibit a far greater dynamic range in duration than others Diphthongs tend to be longer than monophthongs, BUT …. The low monophthongs ([ae], [aa], [ay], [aw], [ao]) exhibit patterns of duration and dynamic range under stress (accent) similar to diphtongs The statistical patterns are consistent with the hypothesis that duration serves under many conditions as either a primary or secondary cue for vowel height (normally associated with the frequency of the first formant) Summary and Conclusions

  48. Moreover, the stress-accent system in spontaneous (American) English appears to be closely associated with vocalic identity Low vowels are far more likely to be fully stressed than high vowels (with the mid vowels exhibiting an intermediate probability of being stressed) Thus, the identity of a vowel can not be considered independently of stress-accent Thus, vowel duration may be an important factor in disambiguating spoken language and therefore should be of interest to the speech recognition community Summary and Conclusions

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