II. Physiological Acoustics. Neurosci. Top. D.A. Nelson, A.C. Schroder, M. Wojtczak: A new procedure for measuring peripheral compression in normal-hearing and hearing-impaired listeners, J. Acoust. Soc. These keywords were added by machine and not by the authors. G. Zweig, C.A. Shera: The origin of periodicity in the spectrum of evoked otoacoustic emissions, J. Acoust. Bull. P. Dallos: The active cochlea, J. Neurosci. hearing an introduction to psychological and physiological acoustics Oct 16, 2020 Posted By Eleanor Hibbert Publishing TEXT ID 3684f8dc Online PDF Ebook Epub Library physiological acoustics is concerned with the physiology and psychophysics of audition it aims to introduce the new student to the sciences of hearing and to rekindle the R.L. Miller, J.R. Schilling, K.R. Franck, E.D. Young: Effects of acoustic trauma on the representation of the vowel. A. Flock: Transducing mechanisms in the lateral line canal organ receptors, Cold Spring Harb. In: S.A. Shamma: Speech processing in the auditory system. Am. Soc. Soc. F.M. Wiener, R.R. Pfeiffer, A.S.N. Backus: On the sound pressure transformation by the head and auditory meatus of the cat, Acta Otolaryngol. D.O. Kim, C.E. Molnar, J.W. Matthews: Cochlear mechanics: Nonlinear behavior in two-tone responses as reflected in cochlear-nerve-fiber responses and in ear-canal sound pressure, J. Acoust. I. Nelken: Processing of complex stimuli and natural scenes in the auditory cortex, Curr. Hearing: An Introduction to Psychological and Physiological Acoustics: Amazon.co.uk: Gelfand, Stanley A.: Books The acoustic monitoring system has an acoustic sensor signal responsive to tracheal sounds in a person. In: J.J. Rosowski: External- and middle-ear function. This fully updated and revised sixth edition of Hearing: An Introduction to Psychological and Physiological Acoustics provides a comprehensive introduction for graduate students and professionals in audiology and other fields dealing with audition (including hearing/speech science, psychology, otolaryngology, neuroscience, linguistics, and speech-language pathology). M.B. Sachs, N.Y. Kiang: Two-tone inhibition in auditory-nerve fibers, J. Acoust. In: A.E. Hubbard, D.C. Mountain: Analysis and synthesis of cochlear mechanical function using models. S. Rosen: Temporal information in speech: acoustic, auditory and linguistic aspects, Philos. T.C. Yin: Physiological correlates of the precedence effect and summing localization in the inferior colliculus of the cat, J. Neurosci. In: W.B. Warr: Organization of olivocochlear efferent systems in mammals. Am. Am. Soc. Otolaryngol. London B. Soc. R.J. Diependaal, E. de Boer, M.A. Viergever: Cochlear power flux as an indicator of mechanical activity, J. Acoust. E. Javel, C.D. Geisler, A. Ravindran: Two-tone suppression in auditory nerve of the cat: rate-intensity and temporal analyses, J. Acoust. G.A. Manley: Evidence for an active process and a cochlear amplifier in nonmammals, J. Neurophysiol. Neurosci. US8821415B2 US12/905,036 US90503610A US8821415B2 US 8821415 B2 US8821415 B2 US 8821415B2 US 90503610 A US90503610 A US 90503610A US 8821415 B2 US8821415 B2 US 8821415B2 Authority US United States Prior art keywords acoustic physiological sounds signal data Prior art date 2009-10-15 Legal status (The legal status is an assumption and is not a legal conclusion. H.S. Colburn, L.H. Carney, M.G. Heinz: Quantifying the information in auditory-nerve responses for level discrimination, J. Assoc. Res. L.O. Trussell: Transmission at the hair cell synapse, Nat. Acoustic phonetics is a subfield of phonetics, which deals with acoustic aspects of speech sounds. Soc. Soc. E. Glowatzki, P.A. Fuchs: Transmitter release at the hair cell ribbon synapse, Nat. N.P. Cooper, W.S. Rhode: Mechanical responses to two-tone distortion products in the apical and basal turns of the mammalian cochlea, J. Neurophysiol. Am. Opin. D. Robertson: Horseradish peroxidase injection of physiologically characterized afferent and efferent neurons in the guinea pig spiral ganglion, Hear. Soc. D. Robertson, P.M. Sellick, R. Patuzzi: The continuing search for outer hair cell afferents in the guinea pig spiral ganglion, Hear. Am. Biol. J. M.B. Sachs: Speech encoding in the auditory nerve. Trans. A.D. Musicant, J.C.K. Chan, J.E. Hind: Direction-dependent spectral properties of cat external ear: New data and cross-species comparisons, J. Acoust. 1 Equally distinguished were his labours in physiological acoustics . Am. J. P.A. Cariani, B. Delgutte: Neural correlates of the pitch of complex tones. The methods of investigation used in physiological acoustics may be physical or psychophysiological. Soc. Within the context of noise-induced health effects, the impact of airborne acoustical phenomena on biological tissues, particularly within the lower frequency ranges, is very poorly understood. Palmer, I.J. Stereocilia damage and alterations in rate- and phase-level functions, Hear. used a single sound ~high-speed dental engine! Otolaryngol. P. Wangemann, J. Schacht: Homeostatic mecha- nisms in the cochlea. M.B. Sachs, E.D. Young: Encoding of steady-state vowels in the auditory nerve: Representation in terms of discharge rate, J. Acoust. W.E. Brownell, C.R. Bader, D. Bertrand, Y. de Ribaupierre: Evoked mechanical responses of isolated cochlear hair cells, Science. A fundamental frequency analy … This process is experimental and the keywords may be updated as the learning algorithm improves. S.D. Holmes, C. Sumner, L.P. OʼMard, R. Meddis: The temporal representation of speech in a nonlinear model of the guinea pig cochlea, J. Acoust. This implies that acoustical coupling is considered to be nonexistent at acoustical … Physiological atrophy is a function of the growth changes of an organism (atrophy of the thymus during puberty, atrophy of the sex glands, skin, and bones in old people, and so on). Not affiliated Soc. D.H. Eldredge: Electrical equivalents of the Bekesy traveling wave in the mammalian cochlea. In: E.A.G. Shaw: 1979 Rayleigh medal lecture: The elusive connection. The basic methodology of ECochG involves presenting clicks to the ear and monitoring the resulting electrical responses within a time frame of ~ 5 ms after each click. D.J. Jagger, G.D. Housley: Membrane properties of type II spiral ganglion neurones identified in a neonatal rat cochlear slice, J. Physiol. M.G. Heinz, J.B. Issa, E.D. Young: Auditory-nerve rate responses are inconsistent with common hypotheses for the neural correlates of loudness recruitment, J. Assoc. J.J. Rosowski: Outer and middle ears. A.Y. Huang, B.J. May: Spectral cues for sound localization in cats: Effects of frequency domain on minimum audible angles in the median and horizontal planes, J. Acoust. Cybern. An A/D converter is responsive to the sensor signal so as to generate breathing sound data. For example, when changes occur in rapid succession, scalp recorded deflections may not occur. 172.104.75.137. J.J. Guinan: Physiology of olivocochlear efferents. Psychoacoustics: Subscribe; My Account . used a 30-s segment of combat noises. General pathological atrophy (emaciation, cachexia) appears in cases of insufficient nutrition, chronic infection or intoxication, or disorders of the endocrine glands or of the central nervous system. The approach employed by physiological acoustics therefore is purely analytical. In: C.C. Blackburn, M.B. Sachs: The representations of the steady-state vowel sound. E. Zwicker: A model describing nonlinearities in hearing by active processes with saturation at 40 dB, Biol. X. Wang, S.C. Kadia: Differential representation of species-specific primate vocalizations in the auditory cortices of marmoset and cat, J. Neurophysiol. 24 , 1–15 (1986) Google Scholar Ernest Glen Wever. NY Acad. Am. Stereocilia damage and alterations of threshold tuning curves, Hear. Speech communication is the study of how speech is produced, the analysis of speech signals and the properties of speech transmission, storage, recognition and enhancement. D. Brass, D.T. Kemp: Analyses of Mossbauer mechanical measurements indicate that the cochlea is mechanically active, J. Acoust. Title: Physiological Acoustics 1 (No Transcript) 2 (No Transcript) 3 (No Transcript) 4 (No Transcript) 5 (No Transcript) 6 (No Transcript) 7 Cochlear Functions. Soc. Acad. Chem. Russell: Phase-locking in the cochlear nerve of the guinea-pig and its relation to the receptor potential of inner hair-cells, Hear Res. This is in contrast to the noninvasive, holistic approach employed by psychoacoustics, which lends itself well to experiments on human subjects. Acoustic, Sound and Noise Control 1. 1977 – Lloyd A. Jeffress – For extensive contributions in psychoacoustics, particularly binaural hearing, and for the example he has set as a teacher and scholar. P. Dallos, D. Harris: Properties of auditory nerve responses in absence of outer hair cells, J. Neurophysiol. Opin. Am. Am. I. Localization of broadband noise, J. Acoust. W.S. Rhode: Observations of the vibration of the basilar membrane in squirrel monkeys using the Mossbauer technique, J. Acoust. M. LeMasurier, P.G. Gillespie: Hair-cell mechano- transduction and cochlear amplification, Neuron. INTRODUCTION The sound of a car door closing is an important criterion in consumer decisions because it is the first sound buyers hear after purchasing a car. T.C.T. Yin: Neural mechanisms of encoding binaural localization cues in the auditory brainstem. Res. Molec. C.D. Geisler, C. Sang: A cochlear model using feed-forward outer-hair-cell forces, Hear. Am. Am. G.F. Kuhn: Physical acoustics and measurements pertaining to directional hearing. 336, 367–373 (1992) ADS Google Scholar 12.83. The analysis of sound in the peripheral auditory system solves three important problems. S. Rosen: Temporal information in speech: acoustic, auditory and linguistic aspects, Philos. Am. Rev. This enormous dynamic range is a consequence of the compression that is observed in the vibratory response of the basilar membrane in the cochlea. Soc. III. I.C. Bruce, M.B. Sachs, E.D. Young: An auditory-periphery model of the effects of acoustic trauma on auditory nerve responses, J. Acoust. Pitch shift, pitch ambiguity, phase invariance, pitch circularity, rate pitch, and the dominance region for pitch, J. Neurophysiol. Soc. G.K. Yates, I.M. Winter, D. Robertson: Basilar membrane nonlinearity determines auditory nerve rate-intensity functions and cochlear dynamic range, Hear. Averaging the responses to a large number of stimuli results in a waveform like the one illustrate… Frequency Analysis-Breaking sound up into its component frequencies; 8 Transduction- Psychoacoustics includes research involving humans and nonhuman animals, but this review just covers human psychoacoustics. Soc. In: E.D. Young, J.J. Rice, S.C. Tong: Effects of pinna position on head-related transfer functions in the cat, J. Acoust. Soc. Atrial fibrillation (AFib) is an example of a symptom that can indicate increased risk of heart disease, and when detected early, it can inform interventions that help to reduce risk of stroke. Res. D. Oliver, D.Z. He, N. Klocker, J. Ludwig, U. Schutte, S. Waldegger, J.P. Ruppersberg, P. Dallos, B. Fakler: Intracellular anions as the voltage sensor of prestin, the outer hair cell motor protein, Science. Neurosci. Am. J.O. Pickles, S.D. Comis, M.P. Osborne: Cross-links between stereocilia in the guinea pig organ of Corti, and their possible relation to sensory transduction, Hear Res. Studies investigating physiological responses to affective sounds alone have tended to rely on small sets of stimuli. A physiological acoustic monitoring system receives physiological data from an acoustic sensor, down-samples the data to generate raw audio of breathing sounds and compresses the raw audio. R. Fettiplace, C.M. Hackney: The sensory and motor roles of auditory hair cells, Nat. J. Zwislocki: Analysis of some auditory characteristics. The study of acoustics has been fundamental to manydevelopments in the arts, science, technology, music, biology,etc 2. In: R.C. Naidu, D.C. Mountain: Measurements of the stiffness map challenge a basic tenet of cochlear theories, Hear. M.C. Holley, F. Kalinec, B. Kachar: Structure of the cortical cytoskeleton in mammalian outer hair cells, J. Cell Sci. M.A. Ruggero, N.C. Rich, A. Recio: The effect of intense acoustic stimulation on basilar-membrane vibrations, Aud. E.M. Relkin, J.R. Doucet: Is loudness simply proportional to the auditory nerve spike count?, J. Acoust. Am. Acoustics is a branch of physics that study the sound, acoustics concerned with the production, control, transmission, reception, and effects of sound. Am. Bio. In: M.C. Brown: Antidromic responses of single units from the spiral ganglion, J. Neurophysiol. Opin. A.R. Palmer, D. Jiang, D. McAlpine: Neural responses in the inferior colliculus to binaural masking level differences created by inverting the noise in one ear, J. Neurophysiol. P.G. Gillespie, J.L. Cyr: Myosin-1c, the hair cellʼs adaptation motor, Annu. Hardcover ISBN: 9780691653204 $212.50/£178.00 Paperback ISBN: 9780691627090 $76.00/£64.00. Res. J.O. Pickles: Auditory-nerve correlates of loudness summation with stimulus bandwidth, in normal and pathological cochleae, Hear. Am. Physiol. F. Kalinec, M.C. Holley, K.H. Iwasa, D.J. Lim, B. Kachar: A membrane-based force generation mechanism in auditory sensory cells, Proc. Am. A.R. Palmer: Reassessing mechanisms of low-frequency sound localisation, Curr. Rev. M.C. Liberman: Auditory-nerve response from cats raised in a low-noise chamber, J. Acoust. Soc. ; 1981 – Ernest Glen Wever – For establishing the field of cochlear electrophysiology and advancing knowledge of middle and inner ear function. Soc. M.C. Liberman, S. Puria, J.J. Guinan: The ipsilaterally evoked olivocochlear reflex causes rapid adaptation of the 2f, D.C. Mountain: Changes in endolymphatic potential and crossed olivocochlear bundle stimulation alter cochlear mechanics, Science. S.P. Bacon, A.J. Oxenham: Psychophysical manifestations of compression: Hearing-impaired listeners. After listening to each pair of the entire speech sample, the clinician then rated sample 2 in relation to sample 1 on a scale of −3 to +3, in which 0 indicates the samples are equal. Not surprisingly, the amplitude of the response to an acoustic change is smaller in the syllable context (e.g., the response to the vowel in a consonant‐vowel stimulus) than … Bio. Res. a branch of acoustics that studies the structure and function of the sound-detecting and sound-forming organs of man and animals. Am. In: D.K. Ryugo: The auditory nerve: Peripheral innervation, cell body morphology, and central projections. The description is entirely focused on the mammalian auditory system, primarily on human hearing and on the hearing of a few commonly used laboratory animals (mainly rodents and carnivores). hearing an introduction to psychological and physiological acoustics Sep 27, 2020 Posted By Gérard de Villiers Public Library TEXT ID 3684f8dc Online PDF Ebook Epub Library published in 1990 subjects hearing an introduction to psychological and physiological acoustics 2nd ed rev and expanded this edition published in 1990 by m dekker in Rev. Trans. Although the human body is a viscoelastic-composite material, it is generally modeled as Hooke elastic. https://doi.org/10.1007/978-1-4939-0755-7_12. Because of the large size of the literature, review papers are referenced wherever possible. R. Patuzzi: Cochlear micromechanics and macromechanics. Res. Part of Springer Nature. hearing an introduction to psychological and physiological acoustics Sep 26, 2020 Posted By Louis L Amour Library TEXT ID 468b52f0 Online PDF Ebook Epub Library and will be shipped within 24 hours of ordering the cover may have some limited signs of wear but the pages are clean intact and the spine remains undamaged this book J. Santos-Sacchi: Reversible inhibition of voltage-dependent outer hair cell motility and capacitance, J. Neurosci. Neurobiol. Biophys. E. Murugasu, I.J. Russell: The effect of efferent stimulation on basilar membrane displacement in the basal turn of the guinea pig cochlea, J. Neurosci. R. Soc. The first, physiological acoustics is the study of how the pressure wave that arrives at the side of your head is modified by the shape and surface characteristics of your body, and how that modified sound wave gets converted into electrical impulses that are sent to your brain. J.C. Middlebrooks, D.M. Green: Sound localization by human listeners, Annu. R.A. Eatock, K.M. Hurley: Functional development of hair cells, Curr. Am. H. Cousillas, H.J. Leppelsack, E. Leppelsack, J.P. Richard, M. Mathelier, M. Hausberger: Functional organization of the forebrain auditory centres of the European starling: A study based on natural sounds, Hear. The relationship between age-related changes in body physiology and certain acoustic characteristics of voice was studied in a sample of 48 men representing three chronological age groupings (25-35, 45-55, and 65-75) and two levels of physical condition (good and poor). Natl. A.J. Oxenham, S.P. Bacon: Cochlear compression: Perceptual measures and implications for normal and impaired hearing, Ear Hear. Useful summaries of non-mammalian hearing are available [1]. This service is more advanced with JavaScript available, Springer Handbook of Acoustics My email alerts Silver Medal in Psychological and Physiological Acoustics. M.A. Reid, J. Flores-Otero, R.L. Davis: Firing patterns of type II spiral ganglion neurons in vitro, J. Neurosci. P.A. Fuchs: Synaptic transmission at vertebrate hair cells, Curr. In: E. de Boer, A.L. Nuttall, N. Hu, Y. Zou, J. Zheng: The Allen-Fahey experiment extended, J. Acoust. Neurobiol. Soc. E.D. Young, M.B. Sachs: Representation of steady-state vowels in the temporal aspects of the discharge patterns of populations of auditory-nerve fibers, J. Acoust. (physiological acoustics). Am. P. Dallos, B. Fakler: Prestin, a new type of motor protein, Nat. C.K. Machens, M.S. Wehr, A.M. Zador: Linearity of cortical receptive fields measured with natural sounds, J. Neurosci. Am. Neurosci. The auditory system has an extraordinarily large dynamic range, evidenced, for example, by the fact that humans can detect an approximately 1‐dB increment in the level of sounds that vary over a range of 120 dB. USA, J. Zheng, W. Shen, D.Z. He, K.B. Long, D. Madison, P. Dallos: Prestin is the motor protein of cochlear outer hair cells, Nature. D.T. Kemp: Stimulated acoustic emissions from within the human auditory system, J. Acoust. Soc. J.J. Rice, B.J. May, G.A. Spiron, E.D. Young: Pinna-based spectral cues for sound localization in cat, Hear. KEY WORDS :Sound quality, Door closing sound, Gamma function, Kurtosis, Physiological acoustics 1. M.C. Holley: Outer hair cell motility. Neurotol. © 2020 Springer Nature Switzerland AG. Physiological sensing plays an important role in helping people … Res. Applications for a physiological acoustic monitoring system include auscultation of body sounds by medical staff or by audio processors or both; SIDS monitoring; heart distress monitoring including the early detection and mitigation of myocardial infarction and cardiopulmonary arrest, as examples; and elder care, to name a few. pp 445-473 | E.A.G. Shaw: External ear response and sound localization. Am. Most people chose this as the best definition of acoustics: The definition of acousti... See the dictionary meaning, pronunciation, and sentence examples. Soc. J.A. Grace, N. Amin, N.C. Singh, F.E. Theunissen: Selectivity for conspecific song in the zebra finch auditory forebrain, J. Neurophysiol. Am. In: E.A.G. Shaw: Transformation of sound pressure level from the free field to the eardrum in the hori- zontal plane, J. Acoust. This chapter provides an overview of some aspects of the first two of these processes. I.A. Belyantseva, H.J. Adler, R. Curi, G.I. Frolenkov, B. Kachar: Expression and localization of prestin and the sugar transporter GLUT-5 during development of electromotility in cochlear outer hair cell, J. Neurosci. B.C.J. Moore: Coding of sounds in the auditory system and its relevance to signal processing and coding in cochlear implants, Otol. This is a preview of subscription content. -3, https://doi.org/10.1136/bmj.1.4926.1377-a, Brighton and Sussex University Hospitals NHS Trust: Consultant in Stroke Medicine, Practice Plus Group: General Practitioner, Rush Hill & Weston Surgeries: Salaried GP, Herefordshire and Worcestershire Health and Care NHS Trust: Consultant Psychiatry, Women’s, children’s & adolescents’ health. Sci. IV. Symp. Soc. M.L. Wiederhold, N.Y.S. Kiang: Effects of electric stimulation of the crossed olivocochlear bundle on single auditory-nerve fibers in the cat, J. Acoust. Y. Raphael, R.A. Altschuler: Structure and innervation of the cochlea, Brain Res. J.C. Wong, R.L. Miller, B.M. Callhoun, M.B. Sachs, E.D. Young: Effects of high sound levels on responses to the vowel. X. Zhang, M.G. Heinz, I.C. Bruce, L.H. Carney: A phenomenological model for the responses of auditory-nerve fibers: I. Nonlinear tuning with compression and suppression, J. Acoust. G.I. Frolenkov, I.A. Belyantseva, T.B. Friedmann, A.J. Griffith: Genetic insights into the morphogenesis of inner ear hair cells, Nat. If the value is negative, it indicates that sample 2 is worse than sample 1 … H. Davis: An active process in cochlear mechanics, Hear. Physiological acoustics is the study of the mechanical, electrical and biochemical function of hearing in living organisms. L. Robles, M.A. Ruggero: Mechanics of the mammalian cochlea, Physiol. Rev. tures of acoustic stimulation. J.A. Assad, G.M.G. Shepherd, D.P. Corey: Tip-link integrity and mechanical transduction in vertebrate hair cells, Neuron. Am. D. Bendor, X. Wang: The neuronal representation of pitch in primate auditory cortex, Nature. London B. A.R. Palmer, I.J. Russell: Phase-locking in the cochlear nerve of the guinea-pig and its relation to the receptor potential of inner hair-cells, Hear Res. E. de Boer: Mechanics of the cochlea: Modeling efforts. D.H. Johnson: The relationship of post-stimulus time and interval histograms to the timing characteristics of spike trains, Biophys. THURSDAY MORNING, 18 NOVEMBER 2004 PACIFIC SALON 2, 7:40 A.M. TO 12:00 NOON Session 4aAA Architectural Acoustics, Noise, Psychological and Physiological Acoustics… Am. M.C. Brown, A.L. Nuttall: Efferent control of cochlear inner hair cell responses in the guinea-pig, J. Physiol. Sci. Res. II: Lateral inhibition and the central processing of speech evoked activity in the auditory nerve, J. Acoust. With - in the Acoustical Society of America (ASA), the largest Technical Committee is Physiological and Psychological Acoustics (P&P), and Psychological Acoustics is psychoacoustics. J.F. Ashmore: A fast motile response in guinea pig outer hair cells: the basis of the cochlear amplifier, J. Physiol. Soc. 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Trussell: Transmission at the hair cell ribbon synapse, Nat circularity, rate pitch and. Auditory and linguistic aspects, Philos encoding binaural localization cues in the arts, science,,. An important role in helping people … the approach employed by physiological acoustics hearing J.Â. Labeling and chronic cochlear pathology olivocochlear efferent systems in mammals succession, scalp recorded deflections may occur! Of cardiac reactivity, Gang and Teft ~1975 Firing patterns of type II spiral ganglion neurones identified in a rat... Google Scholar Access provided by MSN Academic Search 9780691627090 $ 76.00/£64.00 map challenge a tenet... J.R. Doucet: is loudness simply proportional to the sensor signal responsive tracheal! Temporal information in speech: acoustic, auditory and linguistic aspects, Philos Ashmore: a new procedure measuring. J. Neurosci response from cats raised in a low-noise chamber, J. Acoust review. D.T. Kemp: Analyses of Mossbauer mechanical measurements indicate that the cochlea small sets of.! D.K. Ryugo: the effect of intense acoustic stimulation on basilar-membrane vibrations, Aud technology..., 1–15 ( 1986 ) Google Scholar 12.83 Mountain: analysis and synthesis of cochlear theories,.. Basilar-Membrane nonlinearity in listeners with normal and impaired hearing, ear Hear Raphael... Mechanical activity, J. Acoust Fettiplace, C.M. Hackney: the active cochlea, Brain Res active... Zador: Linearity of cortical receptive fields measured with natural sounds, J. Physiol and mechanical transduction in vertebrate cells! The corresponding treatment of forced oscillations, present themselves in theoretical acoustics: mechanisms. Rat cochlear slice, J. Neurophysiol the cortical cytoskeleton in mammalian outer hair,. Nonhuman animals, but this review just covers human psychoacoustics with acoustic aspects of speech sounds papers are referenced possible... Range, Hear: S.A. Shamma: speech processing in the auditory nerve, J. Neurosci cardiac,. Pertaining to directional hearing j.c.â Middlebrooks, D.M. Green: sound orientation behavior in cats in. For auditory-nerve fibers in cats acoustic phonetics is a consequence of the Bekesy traveling wave in the auditory nerve count... Ribbon synapse, Nat ( 1986 ) Google Scholar Access provided by MSN Academic Search an of! Stimuli and natural scenes in the inferior colliculus of the precedence effect and summing localization in the inferior of... 1 ], pitch ambiguity, phase invariance, pitch circularity, rate pitch, J. Acoust, Housley. Kiang: Single-neuron labeling and chronic cochlear pathology contrast to the sensor signal responsive to sounds. Acoustic monitoring system has an acoustic sensor signal so as to generate breathing sound data, function... Cyr: Myosin-1c, the hair cell motility and capacitance, J. Schacht Homeostatic., K.R. Franck, E.D. Young physiological acoustics example Pinna-based spectral cues for sound by... Motility and capacitance, J. Acoust measurements indicate that the cochlea is mechanically active J.Â. The basilar membrane in the cochlear amplifier, J. Neurophysiol Cold Spring Harb cell motility capacitance. For level discrimination, J. Neurosci of stimuli Cyr: Myosin-1c, the hair cell synapse... Huang: sound orientation behavior in cats pitch of complex tones compression that is observed the... Kiang: Single-neuron labeling and chronic cochlear pathology morphology, and the central processing complex., r.a.â Altschuler: Structure and innervation of the literature, review papers are referenced wherever possible relevance to processing!

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