The objective of this research program is to seek a better understanding of the empirical phenomenon known as """"""""locus equations."""""""" Locus equations are straight line regression fits to data points formed by plotting frequency onsets of F2 transitions along the ordinate and their midvowel target frequencies along the abscissa. Past studies have consistently shown that such coordinates emerge as linear scatterplots that are statistically distinctive across stop place categories for initial voiced stops. As such, locus equations capture, in acoustic terms, a lawful variability and relational orderliness characterizing coarticulated stop + vowel gestures. Locus equations, as quantitative phonetic descriptors capable of indexing both coarticulation and contrastive stop place categories, provide a new methodological probe to investigate the classic invariance problem in speech perception the ability of listener's to form invariant perceptual categories despite physical variation in the signal. The proposed studies are structured to experimentally assess the (l) physical, (2) perceptual, and (3) phonological reality of locus equations. This organizational framework is geared toward providing answers to questions such as: """"""""where do linear and contrastive locus equations come from?"""""""" """"""""do listener's make use of them in perception as """"""""CV prototypes?"""""""", and """"""""what is the phonological role of locus equations across the consonant inventory of a language?"""""""" The physical reality of locus equations will be investigated by three separate paradigms: (i) to ascertain if the source of the linearity exhibited by locus equations derives from inherent filtering properties of the vocal tract, regression functions will be simulated using a model that generates formant values based on vocal tract area functions; (ii) to assess whether linear locus equations for stop categories can be compensatorily generated, bite block speech will be employed to compare to normal production of CV tokens; (iii) to assess the developmental origin of locus equations a longitudinal study of infant babbling is proposed. The psychological reality of locus equations will be examined by a perception study using synthesized tokens formed from prototype locus equations. F2 and F3 onset frequencies will be systematically varied to study how perceptual judgements of category affiliation and boundaries are predicted by locus equation position in acoustic phonetic space. The phonological reality of locus equations will be investigated by testing several consonantal manner classes (stops, approximants, and fricatives), varying by place. Comparison of locus equations for a similar 'place' feature (e.g., alveolar /d/, /l, /s/) across manner classes, will help determine if locus equations are best described in feature or segment terms. Expanded phonetic contexts will include voiced stop place distinctions in syllable-final position and place distinctions for noninitial voiceless unaspirated stops.

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC002014-04
Application #
2430092
Study Section
Sensory Disorders and Language Study Section (CMS)
Project Start
1994-06-01
Project End
1998-08-31
Budget Start
1997-05-31
Budget End
1998-08-31
Support Year
4
Fiscal Year
1997
Total Cost
Indirect Cost
Name
University of Texas Austin
Department
Miscellaneous
Type
Schools of Arts and Sciences
DUNS #
City
Austin
State
TX
Country
United States
Zip Code
78712
Stücker, Isabelle; Martin, Diane; Neri, Monica et al. (2017) Women Epidemiology Lung Cancer (WELCA) study: reproductive, hormonal, occupational risk factors and biobank. BMC Public Health 17:324
Modarresi, Golnaz; Sussman, Harvey; Lindblom, Bjorn et al. (2004) Stop place coding: an acoustic study of CV, VC#, and C#V sequences. Phonetica 61:2-21
Lindblom, Bjorn; Sussman, Harvey M; Modarresi, Golnaz et al. (2002) The trough effect: implications for speech motor programming. Phonetica 59:245-62
Sussman, H M; Duder, C; Dalston, E et al. (1999) An acoustic analysis of the development of CV coarticulation: a case study. J Speech Lang Hear Res 42:1080-96
Sussman, H M; Fruchter, D; Hilbert, J et al. (1998) Linear correlates in the speech signal: the orderly output constraint. Behav Brain Sci 21:241-59;discussion 260-99
Sussman, H M; Dalston, E; Gumbert, S (1998) The effect of speaking style on a locus equation characterization of stop place of articulation. Phonetica 55:204-25
Sussman, H M; Bessell, N; Dalston, E et al. (1997) An investigation of stop place of articulation as a function of syllable position: a locus equation perspective. J Acoust Soc Am 101:2826-38
Fruchter, D; Sussman, H M (1997) The perceptual relevance of locus equations. J Acoust Soc Am 102:2997-3008
Sussman, H M; Shore, J (1996) Locus equations as phonetic descriptors of consonantal place of articulation. Percept Psychophys 58:936-46
Sussman, H M; Minifie, F D; Buder, E H et al. (1996) Consonant-vowel interdependencies in babbling and early words: preliminary examination of a locus equation approach. J Speech Hear Res 39:424-33

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