Our long-term objective is to reach an understanding of the auditory system that will allow quantitative modeling of the perception of tones, noise, and speech in both normal and impaired hearing. Such models are important for understanding normal auditory processes and provide a basis for improving diagnosis and rehabilitation of hearing-impaired listeners. The proposed project aims to obtain psychoacoustic data that will allow further tests of the concept that excitation patterns and multiband decision rules may provide a general framework for quantitative modeling of normal and impaired hearing. Based on 21,2AFC experiments in normal, impaired, and masked-normal listeners, the proposed project will establish a firm basis for refining our excitation-pattern model of intensity discrimination and testing a number of hypotheses related to the decision process In this and other models.
The specific aims are: (1) To test the hypothesis that differences in across-frequency integration for detection of brief and long tone complexes reflect different psychometric functions, psychometric functions will be measured for detection of masked brief and long tones and tone complexes. (2) To test the hypothesis that lower-than-expected thresholds for brief tone complexes depends on synchronous activity across a number of channels, masked thresholds will be measured for brief tone bursts and tone complex with the component tones in various phase relationships at the envelope peak. (3) To test the hypothesis that phase-locking of the auditory nerve may aid detection of tones with long durations, thresholds in the quiet and under masking will be compared for long and short bursts of tones and frozen narrow-band noises at several frequencies. (4) To test the hypothesis that the effect of duration on level discrimination depends on the width of the excitation pattern, level discrimination thresholds will be measured for tones and tone complexes partially masked by notched-noise maskers. (5) To test the hypothesis, that detection of masked signals is based on activity in an optimum selection of equally weighted frequency-selective channels, detection-probability functions (Conditional On a Single Stimulus, COSS) will be measured for pure tones and an 18-tone complex in either fixed or random conditions. The signals will be masked by uniformly masking noise composed of 24 critical-band wide noises whose levels vary randomly. The conditional psychometric functions thus obtained provide direct estimates of the decision rules used for each signal and listening condition. (6) To test the hypothesis that listeners' decision in a level-discrimination experiment is based on an optimally weighted sum of across-interval excitation-level differences in frequency selective channels, COSS functions will be measured for level discrimination of multitone complexes in which a random jitter is applied to each component. These data will add significantly to our understanding of normal and impaired hearing and will be important for the development and testing of models of the auditory system. Little is known about how the auditory system integrates information across channels, although this ability is critical to our perception of almost all sounds.

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC000187-15
Application #
2608241
Study Section
Hearing Research Study Section (HAR)
Project Start
1983-12-01
Project End
2000-11-30
Budget Start
1997-12-01
Budget End
1998-11-30
Support Year
15
Fiscal Year
1998
Total Cost
Indirect Cost
Name
Northeastern University
Department
Other Health Professions
Type
Schools of Education
DUNS #
039318308
City
Boston
State
MA
Country
United States
Zip Code
02115
Miyykiewicz, Andrzej; Buus, Soren; Florentine, Mary (2006) Effect of masker-fringe onset asynchrony on overshoot (L). J Acoust Soc Am 119:1331-4
Epstein, Michael; Florentine, Mary (2005) Inferring basilar-membrane motion from tone-burst otoacoustic emissions and psychoacoustic measurements. J Acoust Soc Am 117:263-74
Epstein, Michael; Buus, Soren; Florentine, Mary (2004) The effects of window delay, delinearization, and frequency on tone-burst otoacoustic emission input/output measurements. J Acoust Soc Am 116:1160-7
Musch, Hannes; Buus, Soren (2004) Using statistical decision theory to predict speech intelligibility. III. Effect of audibility on speech recognition sensitivity. J Acoust Soc Am 116:2223-33
Marvit, Peter; Florentine, Mary; Buus, Soren (2003) A comparison of psychophysical procedures for level-discrimination thresholds. J Acoust Soc Am 113:3348-61
Kortekaas, Reinier; Buus, Soren; Florentine, Mary (2003) Perceptual weights in auditory level discrimination. J Acoust Soc Am 113:3306-22
Florentine, M; Marvit, P; Buus, S (2001) Maximum-likelihood yes-no procedure for gap detection: effect of track length. J Am Acad Audiol 12:113-20
Oxenham, A J (2000) Influence of spatial and temporal coding on auditory gap detection. J Acoust Soc Am 107:2215-23
Florentine, M; Buus, S; Geng, W (2000) Toward a clinical procedure for narrowband gap detection I: a psychophysical procedure. Audiology 39:161-7
Hicks, M L; Buus, S (2000) Efficient across-frequency integration: evidence from psychometric functions. J Acoust Soc Am 107:3333-42

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