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ENGINEERING BIOMEDICAL Michael G. Heinz Background: PhD at MIT –Speech and Hearing Bioscience and Technology Postdoctoral Fellow at Johns Hopkins Univ.

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Presentation on theme: "ENGINEERING BIOMEDICAL Michael G. Heinz Background: PhD at MIT –Speech and Hearing Bioscience and Technology Postdoctoral Fellow at Johns Hopkins Univ."— Presentation transcript:

1 ENGINEERING BIOMEDICAL Michael G. Heinz Background: PhD at MIT –Speech and Hearing Bioscience and Technology Postdoctoral Fellow at Johns Hopkins Univ. –Biomedical Engineering Current Position: Assistant Professor of Speech, Language, and Hearing Sciences Assistant Professor of Biomedical Engineering mheinz@purdue.edu

2 ENGINEERING BIOMEDICAL Current Research Areas (Zhang et al., 2001) (Heinz et al., 2001) (Bruce et al., 2003) Long-term goals – –to understand the neural bases for robust speech perception by studying the effects of sensorineural hearing loss on neural coding – –to transfer this knowledge to technologies that improve the lives of people with hearing loss Specific Interests – –neural coding in normal and impaired auditory systems – –neural mechanisms for enhanced speech coding – –models of auditory signal processing and perception – –psychoacoustics – –auditory prostheses Funding – –NIH: National Institute on Deafness and Other Communication Disorders – –NOHR: National Organization for Hearing Research Foundation Auditory-nerve model

3 ENGINEERING BIOMEDICAL Methodologies Auditory Neurophysiology –auditory nerve and cochlear nucleus of chinchillas –Normal and impaired hearing Computational Modeling –Auditory-nerve model –Signal detection theoretic framework to relate physiology to perception –Normal and impaired hearing Psychoacoustics –Human listeners –Normal and impaired hearing

4 ENGINEERING BIOMEDICAL Recent Results Neurophysiology Both outer- and inner-hair-cell (OHC/IHC) damage affects the coding of sound level in the auditory nerve (AN) –Inconsistent with common hypotheses for the neural correlates of loudness recruitment –Alternative hypotheses: spatiotemporal AN responses (associated with OHC function) changes in central synaptic gain following impairment Population responses can be simulated from a single AN fiber Computational Modeling Nonlinear spatiotemporal cues provide robust information about sound-level –in conditions with degraded average-rate code but robust perception –can be decoded with a cross-frequency coincidence detector

5 ENGINEERING BIOMEDICAL Future Directions Speech Coding The effects of SNHL on the neural coding and perception of concurrent speech (source segregation) –Conditions where hearing aids and automatic speech recognizers currently have the greatest difficulty Clinical Applications Diagnostic tests/modeling to identify the degree of OHC/IHC damage in individual patients Improved signal-processing strategies for hearing aids and cochlear implants

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