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Laurel H. Carney, Ph.D.

Laurel H. Carney, Ph.D.

Contact

Call Center (585) 276-3000

Research Lab

About Me

Professional Background

Education:

Massachusetts Institute of Technology, Cambridge, MA S.B., 1983 Electrical Engineering
University of Wisconsin, Madison, WI, M.S. 1985 Electrical Engineering
University of Wisconsin, Madison, WI, Ph.D. 1989 Electrical Engineering


Positions and Employment:
...
Education:

Massachusetts Institute of Technology, Cambridge, MA S.B., 1983 Electrical Engineering
University of Wisconsin, Madison, WI, M.S. 1985 Electrical Engineering
University of Wisconsin, Madison, WI, Ph.D. 1989 Electrical Engineering


Positions and Employment:

1991-1997 Assistant Professor, Boston University, Department of Biomedical Engineering
1997-2001 Associate Professor, Boston University, Department of Biomedical Engineering
1998-2001 Associate Chair for Graduate Studies, BU, Department of Biomedical Engineering
1999-2002 Associate Editor, Physiological Acoustics, Journal of the Acoustical Society
2001-2007 Professor, Syracuse University, Departments of Biomedical & Chemical Engineering and Electrical Engineering & Computer Science
2001-Present Associate Editor, Journal of Neuroscience
2007-Present Professor, University of Rochester, Departments of Biomedical Engineering, and Neurobiology & Anatomy

Honors:

2006 - Elected Fellow of the American Institute for Medical and Biological Engineering, "For contributions to the mathematical modeling and empirical characterization of the mammalian auditory system."
2002 - Elected Fellow of the Acoustical Society of America, "For contributions to an integrated understanding of the physiology and psychophysics of hearing."

Faculty Appointments

Professor - Department of Neuroscience (SMD) - Joint

Credentials

Education

PhD | Univ Wisconsin-Madison. Electrical Engineering. 1989

MS | Univ Wisconsin-Madison. Electrical Engineering. 1985

BS | Mass Inst Technology. Electrical Engineering. 1983

Awards

BME Faculty Member of the Year. 2010

Professor of the Year. 2010 - 2011

Elected Fellow. 2006

Elected Fellow. 2002

Outstanding Professor of the Year Award. 2001

Outstanding Professor of the Year Award. 1995

Young Investigator Award. 1992 - 1995

Rose Neuroscience Award. 1990

Research

Research Overview:

We combine neurophysiological, behavioral, and computational modeling techniques towards our goal of understanding neural mechanisms underlying the perception of complex sounds. Our work now includes studies of both listeners with normal hearing ability and those with ...
Research Overview:

We combine neurophysiological, behavioral, and computational modeling techniques towards our goal of understanding neural mechanisms underlying the perception of complex sounds. Our work now includes studies of both listeners with normal hearing ability and those with sensorineural hearing loss. We are also interested in applying the results from our laboratory to the design of physiologically based signal-processing strategies to aid listeners with hearing loss.
We are currently studying three specific problems: detection of acoustic signals in background noise, detection of fluctuations in the amplitude of sounds, and neural coding of vowels. These problems are of interest because they are tasks at which the healthy auditory system excels, but they are situations that can present great difficulty for listeners with hearing loss. We study the psychophysical limits of ability in these tasks, and we also study the neural coding and processing of these sounds using stimuli matched to those of our behavioral studies. Computational modeling helps bridge the gap between our behavioral and physiological studies. For example, using computational models derived from neural population recordings, we make predictions of behavioral abilities that can be directly compared to actual behavioral results. The cues and mechanisms used by our computational models can be manipulated to test different hypotheses for neural coding and processing.
By identifying the cues involved in the detection of signals in noise, fluctuations of signals, and coding of vowels, our goal is to direct novel strategies for signal processors to preserve, restore, or enhance these cues for listeners with hearing loss.


Selected Relevant Recent Publications:

Davidson, S.A., Gilkey, R.H., Colburn, H.S. and Carney, L.H. (2006), Binaural detection with narrowband and wideband reproducible noise maskers: III. Models for monaural and diotic detection, J. Acoust. Soc. Am. 119:2258-2275
Anzalone, M.C., Calandruccio, L., Doherty, K.A., Carney, L.H., (2006), Determination of the Potential Benefit of Time-Frequency Gain Manipulation, Ear & Hearing. 27: 480-492.
Nelson, P.C., and Carney, L. H. (2006) Cues for masked amplitude-modulation detection, J. Acoust. Soc. Am. 120, 978-990.
Tan and Carney (2006), Predictions of Formant-Frequency Discrimination in Noise Based on Model Auditory-Nerve Responses, J. Acoust. Soc. Am. 120:1435-1445.
Gai, Y. and Carney, L.H. (2006) Temporal measures and neural strategies for detection of tones in noise based on responses in anteroventral cochlear nucleus, J. Neurophysiol., 96:2451-2464.
Nelson, P.C. and Carney, L. H. (2007) Rate and timing cues for neural detection and discrimination of amplitude-modulated tones in the awake rabbit inferior colliculus. J. Neurophysiol. 97:522-539.
Nelson, P.N. Ewert, S.D., Carney, L.H., and Dau, T. (2007). Comparison of intensity discrimination, increment detection, and comodulation masking release in the audio- and envelope-frequency domains, J. Acoust. Soc. Am. 121:2168-2181.
Deshmukh, O., Espy-Wilson, C., and Carney, L.H. (2007) Speech enhancement using the modified phase-opponency model, J. Acoust. Soc. Am. 121: 3886-3898.
Calandruccio, L., Doherty, K.A., Carney, L.H., Kikkeri, H.N. (2007), Perception of Temporally Processed Speech by Listeners with Hearing Impairment, Ear & Hearing. 28: 512-523
Gai, Y., L.H. Carney, K.S. Abrams, F. Idrobo, J. M. Harrison, R. H. Gilkey (2007) Detection of Tones in Reproducible Noise Maskers by Rabbits and Comparison to Detection by Humans, JARO, 8: 1525-3961.
Gai, Y., L.H. Carney (2008) Influence of Inhibitory Inputs on Rate and Timing of Responses in the Anteroventral Cochlear Nucleus, J. Neurophysiol., 99:1077-1095.
Gai, Y., L.H. Carney (2008) Statistical Analyses of Temporal Information in Auditory Brainstem Responses to Tones in Noise: Correlation Index and Spike-distance Metric, JARO, 9:373-387.

Publications

Journal Articles

Neural Fluctuation Contrast as a Code for Complex Sounds: The Role and Control of Peripheral Nonlinearities.

Carney LH

Hearing research.. 2024 February 1443 :108966. Epub 02/01/2024.

Subcortical auditory model including efferent dynamic gain control with inputs from cochlear nucleus and inferior colliculus.

Farhadi A, Jennings SG, Strickland EA, Carney LH

The Journal of the Acoustical Society of America.. 2023 December 1154 (6):3644-3659. Epub 1900 01 01.

Sensitivity to direction and velocity of fast frequency chirps in the inferior colliculus of awake rabbit.

Mitchell PW, Henry KS, Carney LH

Hearing research.. 2023 November 15440 :108915. Epub 11/15/2023.

Dissecting neural computations in the human auditory pathway using deep neural networks for speech.

Li Y, Anumanchipalli GK, Mohamed A, Chen P, Carney LH, Lu J, Wu J, Chang EF

Nature neuroscience.. 2023 October 30 Epub 10/30/2023.

Representations of fricatives in subcortical model responses: Comparisons with human consonant perception.

Hamza Y, Farhadi A, Schwarz DM, McDonough JM, Carney LH

The Journal of the Acoustical Society of America.. 2023 August 1154 (2):602-618. Epub 1900 01 01.

Mechanisms of masking by Schroeder-phase harmonic tone complexes in the budgerigar (Melopsittacus undulatus).

Henry KS, Wang Y, Abrams KS, Carney LH

Hearing research.. 2023 August 435 :108812. Epub 05/27/2023.

Effects of sensorineural hearing loss on formant-frequency discrimination: Measurements and models.

Carney LH, Cameron DA, Kinast KB, Feld CE, Schwarz DM, Leong UC, McDonough JM

Hearing research.. 2023 May 8435 :108788. Epub 05/08/2023.

Incorporating models of subcortical processing improves the ability to predict EEG responses to natural speech.

Lindboom E, Nidiffer A, Carney LH, Lalor EC

Hearing research.. 2023 April 10433 :108767. Epub 04/10/2023.

Inherent envelope fluctuations in forward masking: Effects of age and hearing loss.

Brennan MA, Svec A, Farhadi A, Maxwell BN, Carney LH

The Journal of the Acoustical Society of America.. 2023 April 1153 (4):1994. Epub 1900 01 01.

Incorporating models of subcortical processing improves the ability to predict EEG responses to natural speech.

Lindboom E, Nidiffer A, Carney LH, Lalor E

bioRxiv : the preprint server for biology.. 2023 January 2 Epub 01/02/2023.

Neural processing and perception of Schroeder-phase harmonic tone complexes in the gerbil: Relating single-unit neurophysiology to behavior.

Steenken F, Oetjen H, Beutelmann R, Carney LH, Koeppl C, Klump GM

The European journal of neuroscience.. 2022 June 20 Epub 06/20/2022.

A comparative study of eight human auditory models of monaural processing.

Osses Vecchi A, Varnet L, Carney LH, Dau T, Bruce IC, Verhulst S, Majdak P

Acta acustica. 2022 6 Epub 05/04/2022.

Responses to dichotic tone-in-noise stimuli in the inferior colliculus.

Fan L, Henry KS, Carney LH

Frontiers in neuroscience.. 2022 16 :997656. Epub 12/01/2022.

Responses to diotic tone-in-noise stimuli in the inferior colliculus: stimulus envelope and neural fluctuation cues.

Fan L, Henry KS, Carney LH

Hearing research.. 2021 August 2409 :108328. Epub 08/02/2021.

Midbrain-level neural correlates of behavioral tone-in-noise detection: dependence on energy and envelope cues.

Wang Y, Abrams KS, Carney LH, Henry KS

The Journal of neuroscience : the official journal of the Society for Neuroscience.. 2021 July 15 Epub 07/15/2021.

Amplitude modulation transfer functions reveal opposing populations within both the inferior colliculus and medial geniculate body.

Kim DO, Carney LH, Kuwada S

Journal of neurophysiology.. 2020 September 9 Epub 09/09/2020.

Neural fluctuation cues for simultaneous notched-noise masking and profile-analysis tasks: Insights from model midbrain responses.

Maxwell BN, Richards VM, Carney LH

The Journal of the Acoustical Society of America.. 2020 May 147 (5):3523. Epub 1900 01 01.

Identifying cues for tone-in-noise detection using decision variable correlation in the budgerigar (Melopsittacus undulatus).

Henry KS, Amburgey KN, Abrams KS, Carney LH

The Journal of the Acoustical Society of America.. 2020 February 147 (2):984. Epub 1900 01 01.

Sensorineural Hearing Loss Diminishes Use of Temporal Envelope Cues: Evidence From Roving-Level Tone-in-Noise Detection.

Leong UC, Schwarz DM, Henry KS, Carney LH

Ear and hearing.. 2020 January 23 Epub 01/23/2020.

A canonical oscillator model of cochlear dynamics.

Lerud KD, Kim JC, Almonte FV, Carney LH, Large EW

Hearing research.. 2019 September 1380 :100-107. Epub 06/14/2019.

Potential cues for the "level discrimination" of a noise band in the presence of flanking bands.

Richards VM, Carney LH

The Journal of the Acoustical Society of America.. 2019 May 145 (5):EL442. Epub 1900 01 01.

Effects of Musical Training and Hearing Loss on Fundamental Frequency Discrimination and Temporal Fine Structure Processing: Psychophysics and Modeling.

Bianchi F, Carney LH, Dau T, Santurette S

Journal of the Association for Research in Otolaryngology : JARO.. 2019 January 28 Epub 01/28/2019.

Nonlinear auditory models yield new insights into representations of vowels.

Carney LH, McDonough JM

Attention, perception & psychophysics.. 2018 December 18 Epub 12/18/2018.

Supra-Threshold Hearing and Fluctuation Profiles: Implications for Sensorineural and Hidden Hearing Loss.

Carney LH

Journal of the Association for Research in Otolaryngology : JARO.. 2018 August 19 (4):331-352. Epub 05/09/2018.

Special issue on computational models of hearing.

Carney LH

Hearing research.. 2018 March 360 :1-2. Epub 1900 01 01.

Convergence of linear acceleration and yaw rotation signals on non-eye movement neurons in the vestibular nucleus of macaques.

Newlands SD, Abbatematteo B, Wei M, Carney LH, Luan H

Journal of neurophysiology.. 2018 January 1119 (1):73-83. Epub 10/04/2017.

Preferred Tempo and Low-Audio-Frequency Bias Emerge From Simulated Sub-cortical Processing of Sounds With a Musical Beat.

Zuk NJ, Carney LH, Lalor EC

Frontiers in neuroscience.. 2018 12 :349. Epub 05/29/2018.

Challenging One Model With Many Stimuli: Simulating Responses in the Inferior Colliculus.

Fan L, Henry KS, Carney LH

Acta acustica united with acustica : the journal of the European Acoustics Association (EEIG).. 2018 104 (5):895-899. Epub 1900 01 01.

Predicting Speech Intelligibility Based on Across-Frequency Contrast in Simulated Auditory-Nerve Fluctuations.

Scheidiger C, Carney LH, Dau T, Zaar J

Acta acustica united with acustica : the journal of the European Acoustics Association (EEIG).. 2018 104 (5):914-917. Epub 1900 01 01.

Formant-frequency discrimination of synthesized vowels in budgerigars (Melopsittacus undulatus) and humans.

Henry KS, Amburgey KN, Abrams KS, Idrobo F, Carney LH

The Journal of the Acoustical Society of America.. 2017 October 142 (4):2073. Epub 1900 01 01.

Modeling Responses in the Superior Paraolivary Nucleus: Implications for Forward Masking in the Inferior Colliculus.

Salimi N, Zilany MS, Carney LH

Journal of the Association for Research in Otolaryngology : JARO.. 2017 June 18 (3):441-456. Epub 01/17/2017.

Midbrain Synchrony to Envelope Structure Supports Behavioral Sensitivity to Single-Formant Vowel-Like Sounds in Noise.

Henry KS, Abrams KS, Forst J, Mender MJ, Neilans EG, Idrobo F, Carney LH

Journal of the Association for Research in Otolaryngology : JARO.. 2017 February 18 (1):165-181. Epub 10/20/2016.

Neural correlates of behavioral amplitude modulation sensitivity in the budgerigar midbrain.

Henry KS, Neilans EG, Abrams KS, Idrobo F, Carney LH

Journal of neurophysiology.. 2016 April 115 (4):1905-16. Epub 02/03/2016.

Speech Coding in the Midbrain: Effects of Sensorineural Hearing Loss.

Carney LH, Kim DO, Kuwada S

Advances in experimental medicine and biology.. 2016 894 :427-435. Epub 1900 01 01.

Cues for Diotic and Dichotic Detection of a 500-Hz Tone in Noise Vary with Hearing Loss.

Mao J, Koch KJ, Doherty KA, Carney LH

Journal of the Association for Research in Otolaryngology : JARO.. 2015 August 16 (4):507-21. Epub 05/15/2015.

Auditory distance coding in rabbit midbrain neurons and human perception: monaural amplitude modulation depth as a cue.

Kim DO, Zahorik P, Carney LH, Bishop BB, Kuwada S

The Journal of neuroscience : the official journal of the Society for Neuroscience.. 2015 April 135 (13):5360-72. Epub 1900 01 01.

Near-field discrimination of sound source distance in the rabbit.

Kuwada S, Kim DO, Koch KJ, Abrams KS, Idrobo F, Zahorik P, Carney LH

Journal of the Association for Research in Otolaryngology : JARO.. 2015 April 16 (2):255-62. Epub 01/17/2015.

Tone-in-noise detection using envelope cues: comparison of signal-processing-based and physiological models.

Mao J, Carney LH

Journal of the Association for Research in Otolaryngology : JARO.. 2015 February 16 (1):121-33. Epub 09/30/2014.

Speech enhancement for listeners with hearing loss based on a model for vowel coding in the auditory midbrain.

Rao A, Carney LH

IEEE transactions on bio-medical engineering.. 2014 July 61 (7):2081-91. Epub 03/25/2014.

Binaural detection with narrowband and wideband reproducible noise maskers. IV. Models using interaural time, level, and envelope differences.

Mao J, Carney LH

The Journal of the Acoustical Society of America.. 2014 February 135 (2):824-37. Epub 1900 01 01.

Suboptimal use of neural information in a mammalian auditory system.

Carney LH, Zilany MS, Huang NJ, Abrams KS, Idrobo F

The Journal of neuroscience : the official journal of the Society for Neuroscience.. 2014 January 2234 (4):1306-13. Epub 1900 01 01.

Updated parameters and expanded simulation options for a model of the auditory periphery.

Zilany MS, Bruce IC, Carney LH

The Journal of the Acoustical Society of America.. 2014 January 135 (1):283-6. Epub 1900 01 01.

Development of a scale for estimating procedural distress in the newborn intensive care unit: the Procedural Load Index.

Schiavenato M, Antos SA, Bell FA, Freedman BR, Kozak AJ, Kroot TB, Lam EH, Ross KE, Sternfield BA, Carney LH

Early human development.. 2013 September 89 (9):615-9. Epub 05/11/2013.

Predictions of diotic tone-in-noise detection based on a nonlinear optimal combination of energy, envelope, and fine-structure cues.

Mao J, Vosoughi A, Carney LH

The Journal of the Acoustical Society of America.. 2013 July 134 (1):396-406. Epub 1900 01 01.

Using a computational model for the auditory midbrain to explore the neural representation of vowels.

Carney LH, Li J, Li T, McDonough JM

The Journal of the Acoustical Society of America.. 2013 May 133 (5):3245. Epub 1900 01 01.

Modeling detection of 500-hertz tones in reproducible noise for listeners with sensorineural hearing loss.

Carney LH, Mao J, Koch KJ, Doherty KA

The Journal of the Acoustical Society of America.. 2013 May 133 (5):3559. Epub 1900 01 01.

Detection thresholds for amplitude modulations of tones in budgerigar, rabbit, and human.

Carney LH, Ketterer AD, Abrams KS, Schwarz DM, Idrobo F

Advances in experimental medicine and biology.. 2013 787 :391-8. Epub 1900 01 01.

Neural representations of vowels and vowel-like sounds.

Carney LH, McDonough JM

The Journal of the Acoustical Society of America.. 2012 April 131 (4):3309. Epub 1900 01 01.

Semi-supervised spike sorting using pattern matching and a scaled Mahalanobis distance metric.

Schwarz DM, Zilany MS, Skevington M, Huang NJ, Flynn BC, Carney LH

Journal of neuroscience methods.. 2012 206 (2):120-31. Epub 02/23/2012.

Forward masking in the amplitude-modulation domain for tone carriers: psychophysical results and physiological correlates.

Wojtczak M, Nelson PC, Viemeister NF, Carney LH

Journal of the Association for Research in Otolaryngology : JARO.. 2011 June 12 (3):361-73. Epub 12/23/2010.

Sound-localization ability of the Mongolian gerbil (Meriones unguiculatus) in a task with a simplified response map.

Carney LH, Sarkar S, Abrams KS, Idrobo F

Hearing research.. 2011 May 275 (1-2):89-95. Epub 12/10/2010.

Power-law dynamics in an auditory-nerve model can account for neural adaptation to sound-level statistics.

Zilany MS, Carney LH

The Journal of neuroscience : the official journal of the Society for Neuroscience.. 2010 August 430 (31):10380-90. Epub 1900 01 01.

A phenomenological model of the synapse between the inner hair cell and auditory nerve: long-term adaptation with power-law dynamics.

Zilany MS, Bruce IC, Nelson PC, Carney LH

The Journal of the Acoustical Society of America.. 2009 November 126 (5):2390-412. Epub 1900 01 01.

Diotic and dichotic detection with reproducible chimeric stimuli.

Davidson SA, Gilkey RH, Colburn HS, Carney LH

The Journal of the Acoustical Society of America.. 2009 October 126 (4):1889-905. Epub 1900 01 01.

An evaluation of models for diotic and dichotic detection in reproducible noises.

Davidson SA, Gilkey RH, Colburn HS, Carney LH

The Journal of the Acoustical Society of America.. 2009 October 126 (4):1906-25. Epub 1900 01 01.

Statistical analyses of temporal information in auditory brainstem responses to tones in noise: correlation index and spike-distance metric.

Gai Y, Carney LH

Journal of the Association for Research in Otolaryngology : JARO.. 2008 September 9 (3):373-87. Epub 06/06/2008.

Comparison of slow and fast neocortical neuron migration using a new in vitro model.

Nichols AJ, Carney LH, Olson EC

BMC neuroscience.. 2008 June 59 :50. Epub 06/05/2008.

Influence of inhibitory inputs on rate and timing of responses in the anteroventral cochlear nucleus.

Gai Y, Carney LH

Journal of neurophysiology.. 2008 March 99 (3):1077-95. Epub 01/16/2008.

Comparison of slow and fast neocortical neuron migration using a new in vitro model.

Nichols, A.J., Carney, L.H., and E.C. Olson.

BMC Neuroscience. 2008; 9: 50.

Detection of tones in reproducible noise maskers by rabbits and comparison to detection by humans.

Gai Y, Carney LH, Abrams KS, Idrobo F, Harrison JM, Gilkey RH

Journal of the Association for Research in Otolaryngology : JARO.. 2007 December 8 (4):522-38. Epub 09/25/2007.

Perception of temporally processed speech by listeners with hearing impairment.

Calandruccio L, Doherty KA, Carney LH, Kikkeri HN

Ear and hearing.. 2007 August 28 (4):512-23. Epub 1900 01 01.

Speech enhancement using the modified phase-opponency model.

Deshmukh OD, Espy-Wilson CY, Carney LH

The Journal of the Acoustical Society of America.. 2007 June 121 (6):3886-98. Epub 1900 01 01.

Comparison of level discrimination, increment detection, and comodulation masking release in the audio- and envelope-frequency domains.

Nelson PC, Ewert SD, Carney LH, Dau T

The Journal of the Acoustical Society of America.. 2007 April 121 (4):2168-81. Epub 1900 01 01.

Neural rate and timing cues for detection and discrimination of amplitude-modulated tones in the awake rabbit inferior colliculus.

Nelson PC, Carney LH

Journal of neurophysiology.. 2007 January 97 (1):522-39. Epub 11/01/2006.

Rate and timing cues for neural detection and discrimination of amplitude-modulated tones in the awake rabbit inferior colliculus.

Nelson, P.C. and Carney, L. H.

J. Neurophysiol. 2007; 97: 522-539.

Comparison of intensity discrimination, increment detection, and comodulation masking release in the audio- and envelope-frequency domains,

Nelson, P.N. Ewert, S.D., Carney, L.H., and Dau, T.

J. Acoust. Soc. Am. 2007; 121: 2168-2181.

Speech enhancement using the modified phase-opponency model,

Deshmukh, O., Espy-Wilson, C., and Carney, L.H.

J. Acoust. Soc. Am. 2007; 121: 3886-3898.

Perception of Temporally Processed Speech by Listeners with Hearing Impairment

Calandruccio, L., Doherty, K.A., Carney, L.H., Kikkeri, H.N.

Ear & Hearing. 2007; 28: 512-523.

Detection of Tones in Reproducible Noise Maskers by Rabbits and Comparison to Detection by Humans

Gai, Y., Carney, L.H., Abrams, K.S., Idrobo, F., Harrison, J.M., and R. H. Gilkey.

JARO. 2007; 8: 1525-3961.

Temporal measures and neural strategies for detection of tones in noise based on responses in anteroventral cochlear nucleus.

Gai Y, Carney LH

Journal of neurophysiology.. 2006 November 96 (5):2451-64. Epub 08/16/2006.

Determination of the potential benefit of time-frequency gain manipulation.

Anzalone MC, Calandruccio L, Doherty KA, Carney LH

Ear and hearing.. 2006 October 27 (5):480-92. Epub 1900 01 01.

Predictions of formant-frequency discrimination in noise based on model auditory-nerve responses.

Tan Q, Carney LH

The Journal of the Acoustical Society of America.. 2006 September 120 (3):1435-45. Epub 1900 01 01.

Correction of the peripheral spatiotemporal response pattern: a potential new signal-processing strategy.

Shi LF, Carney LH, Doherty KA

Journal of speech, language, and hearing research : JSLHR.. 2006 August 49 (4):848-55. Epub 1900 01 01.

Cues for masked amplitude-modulation detection.

Nelson PC, Carney LH

The Journal of the Acoustical Society of America.. 2006 August 120 (2):978-90. Epub 1900 01 01.

Binaural detection with narrowband and wideband reproducible noise maskers. III. Monaural and diotic detection and model results.

Davidson SA, Gilkey RH, Colburn HS, Carney LH

The Journal of the Acoustical Society of America.. 2006 April 119 (4):2258-75. Epub 1900 01 01.

Binaural detection with narrowband and wideband reproducible noise maskers: III. Models for monaural and diotic detection,

Davidson, S. A., Gilkey, R. H., Colburn, H. S., and Carney, L. H.

J. Acoust. Soc. Am. 2006; 119: 2258-2275.

Correction of the Peripheral Spatio-Temporal Response Pattern: A Potential New Signal-Processing Strategy

Shi, L., Carney. L. H., and Doherty, K. A.

J. Speech Language and Hearing Res. 2006; 49: 848-855.

Determination of the Potential Benefit of Time-Frequency Gain Manipulation,

Anzalone, M.C., Calandruccio, L., Doherty, K.A., Carney, L.H.

Ear & Hearing. 2006; 27: 480-492.

Cues for masked amplitude-modulation detection

Nelson, P.C., and Carney, L. H.

J. Acoust. Soc. Am. 2006; 120: 978-990.

Predictions of Formant-Frequency Discrimination in Noise Based on Model Auditory-Nerve Responses,

Tan and Carney.

J. Acoust. Soc. Am. 2006; 120: 1435-1445.

Temporal measures and neural strategies for detection of tones in noise based on responses in anteroventral cochlear nucleus,

Gai, Y. and Carney, L.H.

J. Neurophysiol. 2006; 96: 2451-2464.

Response properties of an integrate-and-fire model that receives subthreshold inputs.

Zhang X, Carney LH

Neural computation.. 2005 December 17 (12):2571-601. Epub 1900 01 01.

Analysis of models for the synapse between the inner hair cell and the auditory nerve.

Zhang X, Carney LH

The Journal of the Acoustical Society of America.. 2005 September 118 (3 Pt 1):1540-53. Epub 1900 01 01.

Effects of inhibitory feedback in a network model of avian brain stem.

Dasika VK, White JA, Carney LH, Colburn HS

Journal of neurophysiology.. 2005 July 94 (1):400-14. Epub 03/02/2005.

The spontaneous-rate histogram of the auditory nerve can be explained by only two or three spontaneous rates and long-range dependence.

Jackson BS, Carney LH

Journal of the Association for Research in Otolaryngology : JARO.. 2005 June 6 (2):148-59. Epub 06/10/2005.

Control of cellular pattern formation in the vertebrate inner retina by homotypic regulation of cell-fate decisions.

Tyler MJ, Carney LH, Cameron DA

The Journal of neuroscience : the official journal of the Society for Neuroscience.. 2005 May 425 (18):4565-76. Epub 1900 01 01.

A model for interaural time difference sensitivity in the medial superior olive: interaction of excitatory and inhibitory synaptic inputs, channel dynamics, and cellular morphology.

Zhou Y, Carney LH, Colburn HS

The Journal of neuroscience : the official journal of the Society for Neuroscience.. 2005 March 2325 (12):3046-58. Epub 1900 01 01.

Encoding of vowel-like sounds in the auditory nerve: model predictions of discrimination performance.

Tan Q, Carney LH

The Journal of the Acoustical Society of America.. 2005 March 117 (3 Pt 1):1210-22. Epub 1900 01 01.

Encoding of vowel-like sounds in the auditory-nerve: Model predictions of discrimination performance.

Tan, Q., and Carney, L. H.

J. Acoust. Soc. Am. 2005; 117: 1210-1222.

A model for interaural time difference sensitivity in the medial superior olive: Interaction of excitatory and inhibitory synaptic inputs, channel dynamics, and cellular morphology,

Zhou, Y., Carney, L.H., and Colburn, H. S.

J. Neuroscience. 2005; 25: 3046-3058.

The Spontaneous-Rate Histogram of the Auditory Nerve Can Be Explained by Only Two or Three Spontaneous Rates and Long-Range Dependence,

Jackson, B. S., and Carney, L. H.

J. Assoc. for Res. In Otolaryngol. 2005; 6: 148-159.

Control of cellular pattern formation in the vertebrate inner retina by homotypic regulation of cell fate decisions,

Tyler, M.J., Carney, L.H., and Cameron, D.A.

J. Neurosci. 2005; 25: 4565-4576.

Effects of inhibitory feedback in a network model of auditory brainstem,

Dasika, V., White, J. A., Carney, L. H., and Colburn, H. S.

J. Neurophysiol. 2005; 94: 400-414.

Analysis of the synapse between the inner hair cell and the auditory nerve in two models,

Zhang, X., and Carney, L.H.

J. Acoust. Soc. Am. 2005; 118: 1540-1553.

Response properties of an integrate-and-fire model that receives subthreshold inputs,

Zhang, X., and Carney, L. H.

Neural Computation. 2005; 17: 2571-2601.

A phenomenological model of peripheral and central neural responses to amplitude-modulated tones.

Nelson PC, Carney LH

The Journal of the Acoustical Society of America.. 2004 October 116 (4 Pt 1):2173-86. Epub 1900 01 01.

Cellular patterns in the inner retina of adult zebrafish: quantitative analyses and a computational model of their formation.

Cameron DA, Carney LH

The Journal of comparative neurology.. 2004 March 22471 (1):11-25. Epub 1900 01 01.

A phenomenological model for the responses of auditory-nerve fibers: II. Nonlinear tuning with a frequency glide.

Tan, Q., and Carney, L.H.

Erratum. 2004; 116: 3224.

Cellular patterns in the inner retina of adult zebrafish: quantitative analyses and a computational model of their formation.

Cameron, D. A., and Carney, L. H.

Journal of Comparative Neurology. 2004; 47: 11-25.

A phenomenological model of peripheral and central neural responses to amplitude-modulated tones.

Nelson, P.C. and Carney, L. H.

J. Acoust. Soc. Am. 2004; 116: 2173-2186.

A phenomenological model for the responses of auditory-nerve fibers. II. Nonlinear tuning with a frequency glide.

Tan Q, Carney LH

The Journal of the Acoustical Society of America.. 2003 October 114 (4 Pt 1):2007-20. Epub 1900 01 01.

Quantifying the information in auditory-nerve responses for level discrimination.

Colburn HS, Carney LH, Heinz MG

Journal of the Association for Research in Otolaryngology : JARO.. 2003 September 4 (3):294-311. Epub 1900 01 01.

CS-dependent response probability in an auditory masked-detection task: considerations based on models of Pavlovian conditioning.

Mason CR, Idrobo F, Early SJ, Abibi A, Zheng L, Harrison JM, Carney LH

The Quarterly journal of experimental psychology. B, Comparative and

CS level-dependent response probability in an auditory masked-detection task: Considerations based on models of Pavlovian conditioning.

Mason, C. R., Idrobo, F., Early, S. J., Abibi, A., Zheng, L., Harrison, J. M., and Carney, L. H.

Quarterly Journal of Experimental Psychology. 2003; 56B: 193-205.

Quantifying the information in auditory-nerve responses for level discrimination.

Colburn, H. S., Carney, L. H., and Heinz, M. G.

JARO. 2003; 04: 294-311.

A phenomenological model for the responses of auditory-nerve fibers: II. Nonlinear tuning with a frequency glide.

Tan, Q., and Carney, L.H.

J. Acoust. Soc. Am. 2003; 114: 2007-2020.

Quantifying the implications of nonlinear cochlear tuning for auditory-filter estimates.

Heinz MG, Colburn HS, Carney LH

The Journal of the Acoustical Society of America.. 2002 February 111 (2):996-1011. Epub 1900 01 01.

Binaural detection with narrowband and wideband reproducible noise maskers: I. Results for human.

Evilsizer ME, Gilkey RH, Mason CR, Colburn HS, Carney LH

The Journal of the Acoustical Society of America.. 2002 January 111 (1 Pt 1):336-45. Epub 1900 01 01.

Binaural detection with narrowband and wideband reproducible noise maskers: II. Results for rabbit.

Zheng L, Early SJ, Mason CR, Idrobo F, Harrison JM, Carney LH

The Journal of the Acoustical Society of America.. 2002 January 111 (1 Pt 1):346-56. Epub 1900 01 01.

Binaural detection with Narrowband and Wideband Reproducible Noise Maskers: I. Results for Human.

Evilsizer, M.E., Gilkey, R.H., Mason, C.R., Colburn, H.S., and Carney, L.H.

J. Acoust. Soc. Am. 2002; 111: 336-345.

Binaural detection with Narrowband and Wideband Reproducible Noise Maskers: II. Results for Rabbit.

Zheng, L., Early, S.J., Mason, C.R., Idrobo, F., Harrison, J.M., and Carney, L.H.

J. Acoust. Soc. Am. 2002; 111: 346-356.

Quantifying the implications of nonlinear cochlear tuning for auditory-filter estimates.

Heinz, M.G., Colburn, H.S., and Carney, L.H.

J. Acoust. Soc. of Am. 2002; 111: 996-1011.

Auditory Phase Opponency: A Temporal Model for Masked Detection at Low Frequencies.

Carney, L. H., Heinz, M. G., Evilsizer, M. E., Gilkey, R. H., and Colburn, H. S.

Acta Acustica united with Acustica,. 2002; 88: 334-347.

Evaluating auditory performance limits: i. one-parameter discrimination using a computational model for the auditory nerve.

Heinz MG, Colburn HS, Carney LH

Neural computation.. 2001 October 13 (10):2273-316. Epub 1900 01 01.

Evaluating auditory performance limits: II. One-parameter discrimination with random-level variation.

Heinz MG, Colburn HS, Carney LH

Neural computation.. 2001 October 13 (10):2317-38. Epub 1900 01 01.

Rate and timing cues associated with the cochlear amplifier: level discrimination based on monaural cross-frequency coincidence detection.

Heinz MG, Colburn HS, Carney LH

The Journal of the Acoustical Society of America.. 2001 October 110 (4):2065-84. Epub 1900 01 01.

Studies of binaural detection in the rabbit (Oryctolagus cuniculus) with Pavlovian conditioning.

Early SJ, Mason CR, Zheng L, Evilsizer M, Idrobo F, Harrison JM, Carney LH

Behavioral neuroscience.. 2001 June 115 (3):650-60. Epub 1900 01 01.

Evidence for two distinct mechanisms of neurogenesis and cellular pattern formation in regenerated goldfish retinas.

Stenkamp DL, Powers MK, Carney LH, Cameron DA

The Journal of comparative neurology.. 2001 March 19431 (4):363-81. Epub 1900 01 01.

A phenomenological model for the responses of auditory-nerve fibers: I. Nonlinear tuning with compression and suppression.

Zhang X, Heinz MG, Bruce IC, Carney LH

The Journal of the Acoustical Society of America.. 2001 February 109 (2):648-70. Epub 1900 01 01.

A phenomenological model for the responses of auditory-nerve fibers: I. Nonlinear tuning with compression and suppression.

Zhang, X., Heinz, M.G., Bruce, I.C., and Carney, L.H.

J. Acoust. Soc. Am. 2001; 109: 648-670.

Evidence for two distinct mechanisms of neurogenesis and cellular pattern formation in regenerating goldfish retinas.

Stenkamp, D.L., Powers, M.K., Carney, L.H., and Cameron, D.A.

J. Comp. Neurol. 2001; 431: 363-381.

Evidence for two distinct mechanisms of neurogenesis and cellular pattern formation in regenerating goldfish retinas.

Stenkamp, D.L., Powers, M.K., Carney, L.H., and Cameron, D.A.

J. Comp. Neurol. 2001; 431: 363-381.

"Evaluating auditory performance limits: I. One-parameter discrimination using a computational model for the auditory nerve,"

Heinz, M.G., Colburn, H.S., and Carney, L.H.

Neural Computation. 2001; 13: 2273-2316.

"Evaluating auditory performance limits: II. One-parameter discrimination with random level variation,"

Heinz, M.G., Colburn, H.S., and Carney, L.H.

Neural Computation. 2001; 13: 2317-2339.

Studies of binaural detection in the rabbit (Oryctolagus cuniculus) with Pavlovian conditioning.

Early, S.J., Mason, C.R., Zheng, L., Evilsizer, M., Idrobo, F., Harrison, J.M., and Carney, L.H.

Behavioral Neuroscience. 2001; 115: 650-660.

Auditory-nerve model for predicting performance limits of normal and impaired listeners.

Heinz, M. G., Zhang, X., Bruce, I. C., and Carney, L. H.

ARLO. 2001; 2: 91-96.

Rate and timing cues associated with the cochlear amplifier: Level discrimination based on Monaural cross-frequency concidence detection.

Heinz, M.G., Colburn, H.S., and Carney, L.H.

J. Acoust. Soc. of Am. 2001; 110: 2065-2084.

Cell mosaic patterns in the native and regenerated inner retina of zebrafish: implications for retinal assembly.

Cameron DA, Carney LH

The Journal of comparative neurology.. 2000 January 17416 (3):356-67. Epub 1900 01 01.

Cell mosaic patterns in the native and regenerated inner retina of zebrafish: Implications for retinal assembly.

Cameron, D.A., and Carney, L.H.

J. Comp. Neurol. 2000; 416: 356-367.

Temporal response properties of neurons in the auditory pathway.

Carney LH

Current opinion in neurobiology.. 1999 August 9 (4):442-6. Epub 1900 01 01.

Frequency glides in the impulse responses of auditory-nerve fibers.

Carney LH, McDuffy MJ, Shekhter I

The Journal of the Acoustical Society of America.. 1999 April 105 (4):2384-91. Epub 1900 01 01.

Frequency glides in the impulse responses of auditory-nerve fibers.

Carney, L.H., McDuffy, M.J., and Shekhter, I.

J. Acoust. Soc. Am. 1999; 105: 2384-2391.

Spatiotemporal tuning of low-frequency cells in the anteroventral cochlear nucleus.

Carney LH, Friedman M

The Journal of neuroscience : the official journal of the Society for Neuroscience.. 1998 February 118 (3):1096-104. Epub 1900 01 01.

A model for binaural response properties of inferior colliculus neurons. I. A model with interaural time difference-sensitive excitatory and inhibitory inputs.

Cai H, Carney LH, Colburn HS

The Journal of the Acoustical Society of America.. 1998 January 103 (1):475-93. Epub 1900 01 01.

A model for binaural response properties of inferior colliculus neurons. II. A model with interaural time difference-sensitive excitatory and inhibitory inputs and an adaptation mechanism.

Cai H, Carney LH, Colburn HS

The Journal of the Acoustical Society of America.. 1998 January 103 (1):494-506. Epub 1900 01 01.

A model for binaural response properties of inferior colliculus neurons: I. A model with ITD-sensitive excitatory and inhibitory inputs.

Cai, H., Carney, L.H., and Colburn, H.S.

J. Acoust. Soc. Am. 1998; 103: 475-493.

A model for binaural response properties of inferior colliculus neurons: II. A model with ITD-sensitive excitatory and inhibitory inputs and an adaptation mechanism.

Cai, H., Carney, L.H., and Colburn, H.S.

J. Acoust. Soc. Am. 1998; 103: 494-506.

Spatiotemporal tuning of cells in the anteroventral cochlear nucleus.

Carney, L. H., and Friedman, M.

J. Neuroscience. 1998; 18: 1096-1104.

Encoding of sound level by discharge rates of auditory neurons.

Carney, L.H., and Burock, M.A.

Comments on Theoretical Biology. 1997; 4: 315-337.

Nonlinear feedback models for the tuning of auditory nerve fibers. Annals of Biomedical Engineering

Carney, L. H., and Friedman, M.

1996; 24: 440-450.

A model with excitation and inhibition for cells in the medial superior olive.

Brughera, A., Stutman, E., Carney, L.H., and Colburn, H.S.

Auditory Neuroscience. 1996; 2: 219-233.

Nonlinear feedback models for the tuning of auditory nerve fibers.

Carney LH, Friedman M

Annals of biomedical engineering.. 1996 24 (3):440-50. Epub 1900 01 01.

Time and frequency domain methods for heart rate variability analysis: a methodological comparison.

Litvack DA, Oberlander TF, Carney LH, Saul JP

Psychophysiology.. 1995 September 32 (5):492-504. Epub 1900 01 01.

Time- and frequency-domain methods for heart rate variability analysis: A methodologial comparison.

Litvack, D.A., Oberlander, T.F., Carney, L.H., and Saul, J.P.

Psychophysiology. 1995; 32: 492-504.

Spatiotemporal encoding of sound level: models for normal encoding and recruitment of loudness.

Carney LH

Hearing research.. 1994 June 176 (1-2):31-44. Epub 1900 01 01.

Enhancement of neural synchronization in the anteroventral cochlear nucleus. I. Responses to tones at the characteristic frequency.

Joris PX, Carney LH, Smith PH, Yin TC

Journal of neurophysiology.. 1994 March 71 (3):1022-36. Epub 1900 01 01.

Enhancement of neural synchronization in the anteroventral cochlear nucleus I: Responses to tones at the characteristic frequency.

Joris, P.X., Carney, L.H., Smith, P.H., and Yin, T.C.T.

J. Neurophysiol. 1994; 71: 1022-1036.

Spatiotemporal encoding of sound level: Models for normal encoding and recruitment of loudness.

Carney, L.H.

Hearing Research. 1994; 76: 31-44.

A model for the responses of low-frequency auditory-nerve fibers in cat.

Carney LH

The Journal of the Acoustical Society of America.. 1993 January 93 (1):401-17. Epub 1900 01 01.

A model for the responses of low-frequency auditory nerve fibers in cat.

Carney, L.H.

J. Acoust. Soc. Am. 1993; 93: 401-417.

Modelling the sensitivity of cells in the anteroventral cochlear nucleus to spatiotemporal discharge patterns.

Carney LH

Philosophical transactions of the Royal Society of London. Series B, Biological sciences.. 1992 June 29336 (1278):403-6. Epub 1900 01 01.

Modelling the sensitivity of cells in the anteroventral cochlear nucleus to temporal discharge patterns.

Carney, L.H.

Phil. Trans. R. Soc. Lond. B. 1992; 336(403-406).

Projections of physiologically characterized globular bushy cell axons from the cochlear nucleus of the cat.

Smith PH, Joris PX, Carney LH, Yin TC

The Journal of comparative neurology.. 1991 February 15304 (3):387-407. Epub 1900 01 01.

Projections of physiologically characterized globular bushy cell axons from the cochlear nucleus of the cat.

Smith, P.H., Joris, P.X., Carney, L.H., and Yin, T.C.T.

J. Comp. Neurol. 1991; 304: 387-407.

Interaural time sensitivity in the inferior colliculus of the albino cat.

Yin TC, Carney LH, Joris PX

The Journal of comparative neurology.. 1990 May 15295 (3):438-48. Epub 1900 01 01.

Sensitivities of cells in the anteroventral cochlear nucleus of cat to spatio-temporal discharge patterns across primary afferents.

Carney, L.H.

J. Neurophysiol. 1990; 64: 437-456.

Interaural time sensitivity in the inferior colliculus of the albino cat.

Yin, T.C.T., Carney, L.H., and P.X. Joris.

J. Comp. Neurol. 1990; 295: 438-448.

Responses of low-frequency cells in the inferior colliculus to interaural time differences of clicks: Excitatory and inhibitory components.

Carney, L.H. and T.C.T. Yin.

J. Neurophysiol. 1989; 62: 144-161.

Temporal coding of resonances by low-frequency auditory nerve fibers: single-fiber responses and a population model.

Carney LH, Yin TC

Journal of neurophysiology.. 1988 November 60 (5):1653-77. Epub 1900 01 01.

The radiation impedance of the external ear of cat: measurements and applications.

Rosowski JJ, Carney LH, Peake WT

The Journal of the Acoustical Society of America.. 1988 November 84 (5):1695-708. Epub 1900 01 01.

Temporal coding of resonances by low frequency auditory nerve fibers: Single fiber responses and a population model. .

Carney, L.H. and T.C.T. Yin.

J. Neurophysiol. 1988; 60: 1653-1677.

Effects of interaural time delays of noise stimuli on low-frequency cells in the cat's inferior colliculus. III. Evidence for cross-correlation.

Yin TC, Chan JC, Carney LH

Journal of neurophysiology.. 1987 September 58 (3):562-83. Epub 1900 01 01.

Effects of interaural time delays of noise stimuli on low frequency cells in the cat's inferior colliculus. III. Evidence for cross correlation.

Yin, T.C.T., J.C.K. Chan, and L.H. Carney.

J. Neurophysiol. 1987; 58: 562 583.

A temporal analysis of auditory-nerve fiber responses to spoken stop consonant-vowel syllables.

Carney LH, Geisler CD

The Journal of the Acoustical Society of America.. 1986 June 79 (6):1896-914. Epub 1900 01 01.

A temporal analysis of auditory nerve fiber responses to spoken stop consonant vowel syllables.

Carney, L.H., and C.D. Geisler.

J. Acoust. Soc. Am. 1986; 79: 1896 1914.

The radiation impedance of the external ear of the cat: Measurements and applications.

Rosowski, J.J., L.H. Carney, and W.T. Peake.

J. Acoust. Soc. Am. 1986; 84: 1695-1708.

Binaural detection with narrowband and wideband reproducible noise maskers. IV. Nonlinear cue combination for diotic tone-in-noise detection.

Books

Basic Aspects of Hearing: Physiology and Perception (2013)

Chapter: Detection Thresholds for Amplitude Modulations of Tones in Budgerigar, Rabbit and Human

Authors: Carney, L.H., A.D. Ketterer, K.S. Abrams, D.M. Schwarz, F. Idrobo

Publisher: Springer, New York 2013

Translational Perspectives in Hearing Science (2012)

Chapter: "Chapter 5. Peripheral anatomy and physiology – 8th nerve"

Authors: Carney, L.H.

Publisher: Wiley 2012

Translational Perspectives in Hearing Science (2010)

Chapter: Peripheral anatomy and physiology – 8th nerve,

Authors: Carney, L.H.

Publisher: Wiley 2010

Psychophysical and Physiological Advances in Hearing (1998)

Chapter: A classically conditioned rabbit preparation for the study of binaural masking level differences.

Authors: Carney, L.H., Mason, C.R., Harrison, J.M., Richards, V.M., and Idrobo, F.

Publisher: Whurr Publishers Ltd., London 1998

Peripheral Auditory Mechanisms, . (1986)

Chapter: The effectiveness of external and middle ears in coupling acoustic power into the cochlea.

Authors: Rosowski, J.J., L.H. Carney, T.J. Lynch,III, and W.T. Peake

Publisher: Springer Verlag, New York 1986