How About Machine Learning Enhancing Theses?

Evaluating human neural tuning curves from a mechanical model of the cochlea by relating them to psychophysical masking data

Garbes, Peter A. Z. (Peter Angelito Zaragoza) (1994)

Advisor: Dennis M. Freeman
Department of Electrical Engineering and Computer Science

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Phase anomalies and plateaus in auditory nerve fiber responses to high-frequency tones

Cheng, Holden (2005)

Advisor: John J. Guinan, Jr.
Department of Electrical Engineering and Computer Science

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Is the pressure difference between the oval and round windows the effective acoustic stimulus for the inner ear?

Voss, Susan E. (Susan Elizabeth) (1995)

Advisor: William T. Peake an John J. Rosowski
Department of Electrical Engineering and Computer Science

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Frequency specificity of contralateral, ipsilateral and bilateral medial olivocochlear acoustic reflexes in humans

Lilaonitkul, Watjana, 1975- (2008)

Advisor: John J. Guinan
Department of Electrical Engineering and Computer Science

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Middle ear pressure gain and cochlear input impedance in the chinchilla

Slama, Michaël C. C. (Michaël Charles Chalom) (2008)

Advisor: John J. Rosowski
Department of Electrical Engineering and Computer Science

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Eye movement studies with a vestibular prosthesis/

Saginaw, Michael A. (Michael Adlai) (2010)

Advisor: Daniel M. Merfeld
Department of Electrical Engineering and Computer Science

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Coincidence detection in the cochlear nucleus : implications for the coding of pitch

Wang, Grace I (2011)

Advisor: Bertrand Delgutte
Department of Electrical Engineering and Computer Science

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Investigating the suppressive effects of a low-frequency bias-tone on auditory-nerve responses to tail-frequency tones

Nam, Hui S., Ph. D. (Hui Sok) (2011)

Advisor: John J. Guinan, Jr.
Department of Electrical Engineering and Computer Science

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Measurement of middle-ear acoustic function in intact ears : application to size variations in the cat family

Huang, Gregory T. (Gregory Tsan-Kao) (1999)

Advisors: John J. Rosowski; William T. Peake an John J. Rosowski
Department of Electrical Engineering and Computer Science

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Estimation of peripheral nerve conduction velocity distributions from a short segment of nerve

Wells, Martin David, 1969- (2000)

Advisor: Roger G. Mark
Department of Electrical Engineering and Computer Science

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HAMLET How About Machine Learning Enhancing Theses?

Theses most similar to Role of middle-ear inertial component of bone conduction in chinchilla (Chhan, David; 2013) read it

Evaluating human neural tuning curves from a mechanical model of the cochlea by relating them to psychophysical masking data

Garbes, Peter A. Z. (Peter Angelito Zaragoza) (1994)

Phase anomalies and plateaus in auditory nerve fiber responses to high-frequency tones

Cheng, Holden (2005)

Is the pressure difference between the oval and round windows the effective acoustic stimulus for the inner ear?

Voss, Susan E. (Susan Elizabeth) (1995)

Frequency specificity of contralateral, ipsilateral and bilateral medial olivocochlear acoustic reflexes in humans

Lilaonitkul, Watjana, 1975- (2008)

Middle ear pressure gain and cochlear input impedance in the chinchilla

Slama, Michaël C. C. (Michaël Charles Chalom) (2008)

Eye movement studies with a vestibular prosthesis/

Saginaw, Michael A. (Michael Adlai) (2010)

Coincidence detection in the cochlear nucleus : implications for the coding of pitch

Wang, Grace I (2011)

Investigating the suppressive effects of a low-frequency bias-tone on auditory-nerve responses to tail-frequency tones

Nam, Hui S., Ph. D. (Hui Sok) (2011)

Measurement of middle-ear acoustic function in intact ears : application to size variations in the cat family

Huang, Gregory T. (Gregory Tsan-Kao) (1999)

Estimation of peripheral nerve conduction velocity distributions from a short segment of nerve

Wells, Martin David, 1969- (2000)