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The Neurophysiological Bases of Auditory Perception

The International Symposium on Hearing is a triennial, highly-prestigious event where world-class scientists present and discuss the most recent advances in the field of hearing research. The symposium focuses on the relationship between auditory physiology, psychoacoustics, and computational modeling. Presented papers range from basic to applied research, and are published in book format. The books from past editions have a large demand by neuroscientists, otolaryngologists, psychologists, and artificial intelligence researchers. This meeting is highly special in that every paper is a plenary session given by invitation by a key, world-class auditory scientist. There are no poster sessions. The editors will have to choose the best 60 papers from approximately 80 submitted abstracts. Priority will be given to hot topics and to papers showing significant advances (this is almost guaranteed, anyhow, by the quality of the speakers). Papers will be submitted by invitation only and invitations will be sent only to the most-significant auditory scientists at present. Furthermore, published papers can be regarded as peer-reviewed because they will be accompanied (in print) by a full discussion between the authors and other conference attendants. This format is identical to that of preceding editions of this symposium and has proven highly successful. A full list of past conference books is given below. We will not know the list of chapters until approximately November 2008, that is 6 months before the conference (May 2009). You can get an idea of the type and format of the chapters by having a look at the books for the last two symposium editions, which were published by Springer. TOC:Contents Part I Cochlea/Peripheral Processing 1 Influence of Neural Synchrony on the Compound Action Potential, Masking, and the Discrimination of Harmonic Complexes 2 A Nonlinear Auditory Filterbank Controlled by Sub-band Instantaneous Frequency Estimates 3 Estimates of Tuning of Auditory Filter Using Simultaneous and Forward Notched-noise 4 A Model of Ventral Cochlear Nucleus Units Based on First Order 5 The Effect of Reverberation on the Temporal Representation of the F0 of Frequency Swept Harmonic Complexes in the Ventral Cochlear Nucleus 6 Spectral Edges as Optimal Stimuli for the Dorsal Cochlear 7 Psychophysical and Physiological Assessment of the Representation of High-frequency Spectral Notches in the Auditory Nerve Part II Pitch 8 Spatio-Temporal Representation of the Pitch of Complex Tones in the Auditory 9 Virtual Pitch in a Computational Physiological 10 Searching for a Pitch Centre in Human Auditory 11 Imaging Temporal Pitch Processing in the Auditory Pathway Part III Modulation 12 Spatiotemporal Encoding of Vowels in Noise Studied with the Responses of Individual Auditory-Nerve 13 Role of Peripheral Nonlinearities in Comodulation Masking 14 Neuromagnetic Representation of Comodulation Masking Release in the Human Auditory 15 Psychophysically Driven Studies of Responses to Amplitude Modulation in the Inferior Colliculus: Comparing Single-Unit Physiology to Behavioral 16 Source Segregation Based on Temporal Envelope Structure and Binaural 17 Simulation of Oscillating Neurons in the Cochlear Nucleus: A Possible Role for Neural Nets, Onset Cells, and Synaptic 18 Forward Masking: Temporal Integration or Adaptation? 19 The Time Course of Listening Part IV Animal Communication 20 Frogs Communicate with Ultrasound in Noisy Environments 21 The Olivocochlear System Takes Part in Audio-Vocal Interaction 22 Neural Representation of Frequency Resolution in the Mouse Auditory Midbrain 23 Behavioral and Neural Identification of Birdsong under Several Masking Conditions Part V Intensity Representation 24 Near-Threshold Auditory Evoked Fields and Potentials are In Line with the Weber-Fechner Law 25 Brain Activation in Relation to Sound Intensity and Loudness 26 Duration Dependency of Spectral Loudness Summation, Measured with Three Different Experimental Procedures Part VI Scene Analysis 27 The Correlative Brain: A Stream Segregation Model 28 Primary Auditory Cortical Responses while Attending to Different Streams 29 Hearing Out Repeating Elements in Randomly Varying Multitone Sequences: A Case of Streaming? 30 The Dynamics of Auditory Streaming: Psychophysics, Neuroimaging, and Modeling 31 Auditory Stream Segregation Based on Speaker Size, and Identification of Size-Modulated Vowel Sequences 32 Auditory Scene Analysis: A Prerequisite for Loudness Perception 33 Modulation Detection Interference as Informational Masking 34 A Paradoxical Aspect of Auditory Change Detection 35 Human Auditory Cortical Processing of Transitions Between 'Order' and 'Disorder' 36 Wideband Inhibition Modulates the Effect of Onset Asynchrony as a Grouping Cue 37 Discriminability of Statistically Independent Gaussian Noise Tokens and Random Tone-Burst Complexes 38 The Role of Rehearsal and Lateralization in Pitch Memory Part VII Binaural Hearing 39 Interaural Correlation and Loudness 40 Interaural Phase and Level Fluctuations as the Basis of Interaural Incoherence Detection 41 Logarithmic Scaling of Interaural Cross Correlation: A Model Based on Evidence from Psychophysics and EEG 42 A Physiologically-Based Population Rate Code for Interaural Time Differences (ITDs) Predicts Bandwidth-Dependent Lateralization 43 A p-Limit for Coding ITDs: Neural Responses and the Binaural Display 44 A p-Limit for Coding ITDs: Implications for Binaural Models 45 Strategies for Encoding ITD in the Chicken Nucleus Laminaris 46 Interaural Level Difference Discrimination Thresholds and Virtual Acoustic Space Minimum Audible Angles for Single Neurons in the Lateral Superior Olive 47 Responses in Inferior Colliculus to Dichotic Harmonic Stimuli: The Binaural Integration of Pitch Cues 48 Level Dependent Shifts in Auditory Nerve Phase Locking Underlie Changes in Interaural Time Sensitivity with Interaural Level Differences in the Inferior Colliculus 49 Remote Masking and the Binaural Masking-Level Difference 50 Perceptual and Physiological Characteristics of Binaural Sluggishness 51 Precedence-Effect with Cochlear Implant Simulation 52 Enhanced Processing of Interaural Temporal Disparities at High-Frequencies: Beyond Transposed Stimuli 53 Models of Neural Responses to Bilateral Electrical Stimulation 54 Neural and Behavioral Sensitivities to Azimuth Degrade with Distance in Reverberant Environments Part VIII Speech and Learning 55 Spectro-temporal Processing of Speech - An Information-Theoretic Framework 56 Articulation Index and Shannon Mutual Information 57 Perceptual Compensation for Reverberation: Effects of 'Noise-Like' and 'Tonal' Contexts 58 Towards Predicting Consonant Confusions of Degraded Speech 59 The Influence of Masker Type on the Binaural Intelligibility Level Index

Informazioni dettagliate del libro - The Neurophysiological Bases of Auditory Perception


EAN (ISBN-13): 9781441956859
ISBN (ISBN-10): 1441956859
Copertina rigida
Copertina flessibile
Anno di pubblicazione: 2010
Editore: Palgrave MacMillan UK
644 Pagine
Peso: 1,118 kg
Lingua: eng/Englisch

Libro nella banca dati dal 2009-06-01T02:37:34+02:00 (Zurich)
Pagina di dettaglio ultima modifica in 2024-03-28T14:09:05+01:00 (Zurich)
ISBN/EAN: 9781441956859

ISBN - Stili di scrittura alternativi:
1-4419-5685-9, 978-1-4419-5685-9
Stili di scrittura alternativi e concetti di ricerca simili:
Autore del libro : palmer, lopez, elizabeth castro, alan byrne, enrique lópez
Titolo del libro: perception, lopez


Dati dell'editore

Autore: Enrique Lopez-Poveda; Alan R. Palmer; Ray Meddis
Titolo: The Neurophysiological Bases of Auditory Perception
Editore: Springer; Springer US
644 Pagine
Anno di pubblicazione: 2010-04-07
New York; NY; US
Stampato / Fatto in
Peso: 2,470 kg
Lingua: Inglese
213,99 € (DE)
219,99 € (AT)
236,00 CHF (CH)
POD
XXXI, 644 p.

BB; Neurobiology; Hardcover, Softcover / Biologie/Zoologie; Neurowissenschaften; Verstehen; Cortex; ELIZA; animal communication; cells; imaging; neurons; perception; physiology; ultrasound; Biological and Medical Physics, Biophysics; Neurology; Animal Physiology; Neurosciences; Acoustics; Neuroscience; Biophysics; Neurology; Animal Physiology; Acoustics; Biophysik; Neurologie und klinische Neurophysiologie; Zoologie und Tierwissenschaften; Wellenmechanik (Vibration und Akustik); BC; EA

Part I Peripheral/Cochlear Processing 1. Otoacoustic emissions theories can be tested with behavioral methods. ENRIQUE A. LÓPEZ-POVEDA, PETER JOHANNESEN 2. Basilar membrane responses to simultaneous presentations of white noise and a single tone. ALBERTO RECIO-SPINOSO, ENRIQUE A. LOPEZ-POVEDA 3. The influence of the helicotrema on low-frequency hearing. TORSTEN MARQUARDT, CHRISTIAN SEJER PEDERSEN 4. Mechanisms of masking by Schroeder-phase complexes. MAGDALENA WOJTCZAK, ANDREW J. OXENHAM 5. The frequency selectivity of gain reduction masking: Analysis using two equally-effective maskers. SKYLER G. JENNINGS, ELIZABETH A. STRICKLAND 6. Investigating cortical descending control of the peripheral auditory system. DARREN EDWARDS, ALAN R. PALMER 7. Exploiting transgenic mice to explore the role of the tectorial membrane in cochlear sensory processing. GUY P. RICHARDSON, VICTORIA LUKASHKINA, ANDREI N. LUKASHKIN, IAN J. RUSSELL 8. Auditory prepulse inhibition of neuronal activity in the rat cochlear root nucleus. RICARDO GÓMEZ-NIETO, JOSÉ ANCHIETA DE CASTRO E HORTA JÚNIOR, ORLANDO CASTELLANO, DONAL G. SINEX, DOLORES E. LÓPEZ Part II Masking 9. FM forward masking: Implications for FM processing. NEAL VIEMEISTER, ANDREW BYRNE, MAGDALENA WOJTCZAK, MARK STELLMACK 10. Electrophysiological correlates of intensity resolution under forward masking. DANIEL OBERFELD 11. Neuronal measures of threshold and magnitude of forward masking in primary auditory cortex. ANA ALVES-PINTO, SYLVIE BAUDOUX, ALAN PALMER, CHRIS J. SUMNER 12. Effect of presence of cue tone on tuning of auditory filter derived from simultaneous masking. SHUNSUKE KIDANI, MASASHI UNOKI Part III Spectral processing and coding 13. Tone in noise detection: Observed discrepancies in spectral integration. NICOLAS LE GOFF, ARMIN KOHLRAUSCHB, JEROEN BREEBAARTC, STEVEN VAN DE PAR 14. Linear and nonlinear coding of sound spectra by discharge rate in neurons comprising the ascending pathway through the lateral superior olive. DANIEL J. TOLLIN, KANTHAIAH KOKA 15. Enhancement in the marmoset inferior colliculus: neural correlates of perceptual “pop out”. PAUL NELSON, ERIC YOUNG 16. Auditory temporal integration at threshold: Evidence of a cortical origin. BERND LÜTKENHÖNER Part IV Pitch and Timbre 17. Spatiotemporal characteristics of cortical responses to a new dichotic pitch stimulus. CAROLINE WITTON, ARJAN HILLEBRAND, G. BRUCE HENNING 18. A temporal code for Huggins pitch? CHRISTOPHER J. PLACK, SUZANNE FITZPATRICK, ROBERT P. CARLYON, HEDWIG E. GOCKEL 19. Understanding pitch perception as a hierarchical process with top-down modulation. EMILI BALAGUER-BALLESTER, NICHOLAS R. CLARK, MARTIN COATH, KATRIN KRUMBHOLZ, SUSAN DENHAM 20. The Harmonic Organization of Auditory Cortex. XIAOQIN WANG 21. Reviewing the definition of timbre as it pertains to the perception of speech and musical sounds. ROY D. PATTERSON, THOMAS C. WALTERS, JESSICA J. M. MONAGHAN, ETIENNE GAUDRAIN 22. Size Perception for acoustically scaled sounds of naturally pronounced and whispered words. TOSHIO IRINO, YOSHIE AOKI, HIDEKI KAWAHARA, ROY D. PATTERSON Part V Binaural hearing 23. Subcomponent cues in binaural unmasking. JOHN CULLING 24. Interaural correlations between +1 and -1 on a Thurstone scale: psychometric functions and a two-parameter model. HELGE LÜDDEMANN, HELMUT RIEDEL, ANDRE RUPP 25. Dynamic ITDs, not ILDs, underlie binaural detection of a tone in wideband noise. MARCEL VAN DER HEIJDEN, PHILIP X. JORIS 26. Effect of reverberation on directional sensitivity of auditory neurons: Central and peripheral factors. SASHA DEVORE, ANDREW SCHWARTZ, BERTRAND DELGUTTE 27. New experiments employing raised-sine stimuli suggest an unknown factor affects sensitivity to envelope-based ITDs for stimuli having low depths of modulation. LESLIE R. BERNSTEIN, CONSTANTINE TRAHIOTIS 28. Modeling Physiological and Psychophysical Responses to Precedence Effect Stimuli. JING XIA, ANDREW BRUGHERA, H. STEVEN COLBURN, BARBARA SHINN-CUNNINGHAM 29. Binaurally-coherent jitter improves neural and perceptual ITD sensitivity in normal and electric hearing. M. GOUPELL, K. HANCOCK, P. MAJDAK, B. LABACK, B. DELGUTTE 30. Lateralization of tone complexes in noise: the role of monaural envelope processing in binaural hearing. STEVEN VAN DE PAR, ARMIN KOHLRAUSCH, NICOLAS LE GOFF 31. Adjustment of interaural-time-difference analysis to sound level. IDA SIVEKE, CHRISTIAN LEIBOLD, KATHARINA KAISER, BENEDIKT GROTHE, LUTZ WIEGREBE 32. The role of envelope wave form, adaptation, and attacks in binaural perception. STEPHAN D. EWERT, MATHIAS DIETZ, MARTIN KLEIN-HENNIG, VOLKER HOHMANN 33. Short-term synaptic plasticity and adaptation contribute to the coding of timing and intensity information. KATRINA MACLEOD, GO ASHIDA, CHRIS GLAZE AND CATHERINE CARR 34. Adaptive coding for auditory spatial cues. PHILLIPP HEHRMANN, JULIA MAIER, NICOL HARPER, DAVID MCALPINE, MANEESH SAHANI 35. Phase shifts in monaural field potentials of the medial superior olive. MYLES MC LAUGHLIN, MARCEL VAN DER HEIJDEN, PHILIP X. JORIS Part VI Speech Processing and Perception 36. Representation of intelligible and distorted speech in human auditory cortex. STEFAN UPPENKAMP, HAGEN WIERSTORF 37. Intelligibility of time-compressed speech with periodic and aperiodic insertions of silence: Evidence for endogenous brain rhythms in speech perception? ODED GHITZA, STEVEN GREENBERG 38. The representation of the pitch of vowel sounds in ferret auditory cortex. JAN SCHNUPP, ANDREW KING, KERRY WALKER, JENNIFER BIZLEY 39. Macroscopic and microscopic analysis of speech recognition in noise: What can be understood at which level? THOMAS BRAND, TIM JÜRGENS, RAINER BEUTELMANN, RALPH M. MEYER, BIRGER KOLLMEIER 40. Effects of peripheral tuning on the auditory nerve’s representation of speech envelope and temporal fine structure cues. RASHA A. IBRAHIM, IAN C. BRUCE 41. Room reflections and constancy in speech-like sounds: Within-band effects. A. J. WATKINS, A. RAIMOND, S. J. MAKIN 42. Identification of perceptual cues for consonant sounds and the influence of sensorineural hearing loss on speech perception. FEIPENG LI, JONT B. ALLEN Part VII Auditory Scene Analysis 43. A comparative view on the perception of mistuning: constraints of the auditory periphery. ASTRID KLINGE, NAOYA ITATANI, GEORG M. KLUMP 44. Stability of perceptual organisation in auditory streaming. SUSAN L. DENHAM, KINGA GYIMESI, GÁBOR STEFANICS, ISTVÁN WINKLER 45. Sequential and simultaneous auditory grouping measured with synchrony detection. CHRISTOPHE MICHEYL, SHIHAB SHAMMA, MOUNYA ELHILALI, ANDREW J. OXENHAM 46. Rate vs. temporal code? A spatio-temporal coherence model of the cortical basis of streaming. MOUNYA ELHILALI, LING MA, CHRISTOPHE MICHEYL, ANDREW J. OXENHAM, SHIHAB A. SHAMMA 47. Objective measures of Auditory Scene Analysis. ROBERT P. CARLYON, SARAH K. THOMPSON, ANTJE HEINRICH, FRIEDEMANN PULVERMULLER, MATTHEW H. DAVIS, YURY SHTYROV, RHODRI CUSACK, INGRID S. JOHNSRUDE 48. Perception of concurrent sentences with harmonic or frequency-shifted voiced excitation: Performance of human listeners and of computational models based on autocorrelation. BRIAN ROBERTS, STEPHEN D. HOLMES, CHRISTOPHER J. DARWIN, GUY J. BROWN Part VIII Novelty detection, Attention and Learning 49. Is there stimulus-specific adaptation in the medial geniculate body of the rat? FLORA ANTUNES, ELLEN COVEY, MANUEL S. MALMIERCA 50. Auditory streaming at the cocktail party: Simultaneous neural and behavioral studies of auditory attention. MOUNYA ELHILALI, JUANJUAN XIANG, SHIHAB A. SHAMMA, JONATHAN Z. SIMON 51. Correlates of auditory attention and task performance in primary auditory and prefrontal cortex. SHIHAB SHAMMA, JONATHAN FRITZ, STEPHEN DAVID, MOUNYA ELHILALI, DANIEL WINKOWSKI, PINGBO YIN 52. The implicit learning of noise: Behavioural data and computational models. TREVOR R. AGUS, MARION BEAUVAIS, SIMON J. THORPE, DANIEL PRESSNITZER 53. Role of primary auditory cortex in acoustic orientation and approach-to-target responses. FERNANDO R. NODAL, VICTORIA M. BAJO, ANDREW J. KING Part IX Hearing impairment 54. Objective and behavioral estimates of cochlear response times in normal-hearing and hearing-impaired human listeners. OLAF STRELCYK, TORSTEN DAU 55. Why do hearing-impaired listeners fail to benefit from masker fluctuations? JOSHUA G. W. BERNSTEIN 56. Across-fiber coding of temporal fine-structure: Effects of noise-induced hearing loss on auditory-nerve responses. MICHAEL G. HEINZ, JAYAGANESH SWAMINATHAN, JONATHAN D. BOLEY, SUSHRUT KALE 57. Beyond the audiogram: identifying and modelling patterns of hearing deficits. RAY MEDDIS, WENDY LECLUYSE, CHRISTINE M. TAN, MANASA R. PANDA, ROBERT T. FERRY

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