Numerous practical and theoretical problems could be addressed if we had a better understanding of the auditory mechanisms underlying phonetic recognition. Among the practical applications of this knowledge are: (1) the improvement of speech synthesis devices, (2) the development of robust speech recognition devices, (3) the development of acoustically based training devices for hearing-impaired speakers, and (4) improvement in Cochlear-implant signal processors. The proposed experiments fall into three major categories. One set of experiments follows in a rather direct way from vowel perception studies conducted during the previous grant period. These experiments address issues such as the role of dynamic spectral cues and voice fundamental frequency in vowel perception. A second series of experiments address more fundamental issues regarding the spectral representations that control phonetic quality. A major goal of these experiments is to test the validity of a method of representing speech that was developed during the previous grant period. The """"""""Masked Peak Representation"""""""" (MPR) was developed as an alternative to both formant representations and whole spectrum models. The MPR involves a series of spectral manipulations that are designed to remove aspects of the spectrum that do not appear to have a strong influence on phonetic quality, while retaining those features that are most relevant to phonetic quality judgments. The MPR will be evaluated with: (1) an experiment comparing MPR-based predictions of perceived phonetic distance with those of a more traditional auditory model, (2) speech recognition tests that use a Hidden Markov Model to map sequences of MPR spectra onto words or phonetic segments, and (3) listening tests with speech resynthesized from MPR spectra. A third set of studies is aimed at modeling the low-level auditory mechanisms that are responsible for spectrum analysis. The goal of this work is to evaluate a model of spectrum analysis that is carried out by the central auditory system rather than the auditory periphery. A software simulation of the model will be developed in an effort to determine the extent to which the central-spectrum model can account for a broad range of findings from the auditory psychophysics literature. Experiments are also proposed that address the implications of this model for vowel perception and for the representation of pitch and periodicity.

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC001661-09
Application #
6329219
Study Section
Special Emphasis Panel (ZRG1-HAR (01))
Program Officer
Shekim, Lana O
Project Start
1992-07-01
Project End
2002-11-30
Budget Start
2000-12-01
Budget End
2002-11-30
Support Year
9
Fiscal Year
2001
Total Cost
$319,368
Indirect Cost
Name
Western Michigan University
Department
Other Health Professions
Type
Schools of Allied Health Profes
DUNS #
City
Kalamazoo
State
MI
Country
United States
Zip Code
49008
Hillenbrand, James M; Gayvert, Robert T; Clark, Michael J (2015) Phonetics exercises using the Alvin experiment-control software. J Speech Lang Hear Res 58:171-84
Hillenbrand, James M; Clark, Michael J; Baer, Carter A (2011) Perception of sinewave vowels. J Acoust Soc Am 129:3991-4000
Hillenbrand, James M; Clark, Michael J (2009) The role of f (0) and formant frequencies in distinguishing the voices of men and women. Atten Percept Psychophys 71:1150-66
Hillenbrand, James M; Gayvert, Robert T (2005) Open source software for experiment design and control. J Speech Lang Hear Res 48:45-60
de Wet, Febe; Weber, Katrin; Boves, Louis et al. (2004) Evaluation of formant-like features on an automatic vowel classification task. J Acoust Soc Am 116:1781-92
Hillenbrand, James M; Houde, Robert A (2003) A narrow band pattern-matching model of vowel perception. J Acoust Soc Am 113:1044-55
Kardach, Jill; Wincowski, Robert; Metz, Dale Evan et al. (2002) Preservation of place and manner cues during simultaneous communication: a spectral moments perspective. J Commun Disord 35:533-42
Hillenbrand, James M; Houde, Robert A (2002) Speech synthesis using damped sinusoids. J Speech Lang Hear Res 45:639-50
Hillenbrand, J M; Clark, M J; Nearey, T M (2001) Effects of consonant environment on vowel formant patterns. J Acoust Soc Am 109:748-63
Hillenbrand, J M; Clark, M J; Houde, R A (2000) Some effects of duration on vowel recognition. J Acoust Soc Am 108:3013-22

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