| human | Q5 |
| P496 | ORCID iD | 0000-0003-1349-9608 |
| P69 | educated at | Massachusetts Institute of Technology | Q49108 |
| P108 | employer | Massachusetts Eye and Ear Infirmary | Q6784269 |
| Massachusetts Institute of Technology | Q49108 | ||
| Harvard Medical School | Q49121 | ||
| P106 | occupation | researcher | Q1650915 |
| Q30500223 | A physiologically based model of interaural time difference discrimination. |
| Q30494733 | A possible neurophysiological basis of the octave enlargement effect. |
| Q38569188 | Antimasking effects of the olivocochlear reflex. II. Enhancement of auditory-nerve response to masked tones. |
| Q30496597 | Auditory nerve fiber responses to electric stimulation: modulated and unmodulated pulse trains. |
| Q37053193 | Better temporal neural coding with cochlear implants in awake animals. |
| Q115362224 | Chronic Bilateral Cochlear Implant Stimulation Partially Restores Neural Binaural Sensitivity in Neonatally-Deaf Rabbits |
| Q30435775 | Coding of electric pulse trains presented through cochlear implants in the auditory midbrain of awake rabbit: comparison with anesthetized preparations |
| Q30440650 | Decoding sound source location and separation using neural population activity patterns |
| Q30421908 | Dual sensitivity of inferior colliculus neurons to ITD in the envelopes of high-frequency sounds: experimental and modeling study. |
| Q30481603 | Dynamic range adaptation to sound level statistics in the auditory nerve. |
| Q30478253 | Effects of reverberation on the directional sensitivity of auditory neurons across the tonotopic axis: influences of interaural time and level differences |
| Q71322095 | Fractal noise strength in auditory-nerve fiber recordings |
| Q41494947 | Fundamental Considerations in Designing Auditory Implants |
| Q51818995 | Hands-on learning in biomedical signal processing. |
| Q91325097 | Improved Neural Coding of ITD with Bilateral Cochlear Implants by Introducing Short Inter-pulse Intervals |
| Q30496603 | Improved neural representation of vowels in electric stimulation using desynchronizing pulse trains. |
| Q30496629 | Improved temporal coding of sinusoids in electric stimulation of the auditory nerve using desynchronizing pulse trains |
| Q88086315 | Introducing Short Interpulse Intervals in High-Rate Pulse Trains Enhances Binaural Timing Sensitivity in Electric Hearing |
| Q30496536 | Mathematical models of cochlear nucleus onset neurons: I. Point neuron with many weak synaptic inputs. |
| Q30496631 | Mathematical models of cochlear nucleus onset neurons: II. model with dynamic spike-blocking state. |
| Q30392296 | Modeling binaural responses in the auditory brainstem to electric stimulation of the auditory nerve |
| Q30369594 | Neural Coding of Interaural Time Differences with Bilateral Cochlear Implants in Unanesthetized Rabbits |
| Q30451570 | Neural ITD coding with bilateral cochlear implants: effect of binaurally coherent jitter. |
| Q30403067 | Neural coding of sound envelope in reverberant environments. |
| Q48315718 | Neural coding of time-varying interaural time differences and time-varying amplitude in the inferior colliculus |
| Q30444952 | Neural correlates of the perception of sound source separation. |
| Q34404653 | Neural correlates of the pitch of complex tones. I. Pitch and pitch salience. |
| Q77590687 | Neural correlates of the precedence effect in the inferior colliculus: effect of localization cues |
| Q30447799 | Neural encoding of sound source location in the presence of a concurrent, spatially separated source. |
| Q30366870 | Neural population encoding and decoding of sound source location across sound level in the rabbit inferior colliculus. |
| Q24564953 | Phase locking of auditory-nerve fibers to the envelopes of high-frequency sounds: implications for sound localization |
| Q39237902 | Phase-locking of auditory-nerve discharges to sinusoidal electric stimulation of the cochlea |
| Q49113225 | Physiological mechanisms of psychophysical masking: observations from auditory-nerve fibers. |
| Q30499782 | Pitch of complex tones: rate-place and interspike interval representations in the auditory nerve. |
| Q91004087 | Pitch of harmonic complex tones: rate and temporal coding of envelope repetition rate in inferior colliculus of unanesthetized rabbits |
| Q115449327 | Rate and Temporal Coding of Regular and Irregular Pulse Trains in Auditory Midbrain of Normal-Hearing and Cochlear-Implanted Rabbits |
| Q48187292 | Receptive fields and binaural interactions for virtual-space stimuli in the cat inferior colliculus. |
| Q71333114 | Representation of speech-like sounds in the discharge patterns of auditory-nerve fibers |
| Q66992775 | Response of the auditory nerve to pure sounds having abrupt onset |
| Q30493199 | Response properties of neighboring neurons in the auditory midbrain for pure-tone stimulation: a tetrode study |
| Q93037721 | Robust Rate-Place Coding of Resolved Components in Harmonic and Inharmonic Complex Tones in Auditory Midbrain |
| Q30489947 | Sensitivity of inferior colliculus neurons to interaural time differences in the envelope versus the fine structure with bilateral cochlear implants |
| Q30500221 | Sensitivity to interaural time differences in the inferior colliculus with bilateral cochlear implants. |
| Q30394014 | Spatiotemporal representation of the pitch of harmonic complex tones in the auditory nerve |
| Q38581337 | Speech coding in the auditory nerve: I. Vowel-like sounds. |
| Q71301622 | Speech coding in the auditory nerve: IV. Sounds with consonant-like dynamic characteristics |
| Q38581328 | Speech coding in the auditory nerve: V. Vowels in background noise. |
| Q67443047 | Technique for the perceptual investigation of F0 contours with application to French |
| Q47684711 | Temporal Envelope Coding by Inferior Colliculus Neurons with Cochlear Implant Stimulation |
| Q30452962 | Time course of dynamic range adaptation in the auditory nerve. |
| Q68687264 | Two-tone rate suppression in auditory-nerve fibers: dependence on suppressor frequency and level |
| Q30492515 | Using evoked potentials to match interaural electrode pairs with bilateral cochlear implants. |
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