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From its inception in 1969, The International Symposium on Hearing has been a forum of excellence for debating the neurophysiological basis of auditory perception, with computational models as tools to test and unify physiological and perceptual theories. Every paper in this symposium includes two of the following: auditory physiology, psychophysics or modeling. The topics range from cochlear physiology to auditory attention and learning. The Neurophysiological Bases of Auditory Perception has a bottom-up structure from ‘simpler’ physiological to more ‘complex’ perceptual phenomena and follows the order of presentations at the 2009 meeting. The volume describes state-of-the-art knowledge on the most current topics of auditory science and will act as a valuable resource to stimulate further research. Enrique A. Lopez-Poveda, Ph.D. is Director of the Auditory Computation and Psychoacoustics Unit of the Neuroscience Institute of Castilla y León (University of Salamanca, Spain). His research focuses on modeling human cochlear nonlinear signal processing and understanding the role of the peripheral auditory system in normal and impaired auditory perception. Alan R. Palmer, Ph.D. is Deputy Director of the MRC Institute of Hearing Research and holds a Special Professorship in Neuroscience at the University of Nottingham,United Kingdom. He heads a research team that uses neurophysiological, computational and neuroanatomical techniques to study the way the brain processes sound. Ray Meddis, Ph.D. is Director of the Hearing Research Laboratory at the University of Essex,United Kingdom. His research has concentrated on the development of computer models of the physiology of the auditory periphery and how these can be incorporated into models of psychophysical phenomena such as pitch and auditory scene analysis.
Auditory perception. --- Ear -- Physiology. --- Hearing. --- Signal processing. --- Speech perception. --- Auditory perception --- Ear --- Signal processing --- Speech perception --- Hearing --- Physiology --- Perception --- Neurosciences --- Auditory Perception --- Neurophysiology --- Biological Science Disciplines --- Mental Processes --- Natural Science Disciplines --- Psychological Phenomena and Processes --- Psychiatry and Psychology --- Disciplines and Occupations --- Human Anatomy & Physiology --- Neuroscience --- Health & Biological Sciences --- Physiological aspects --- Sound perception --- Life sciences. --- Neurosciences. --- Neurology. --- Animal physiology. --- Neurobiology. --- Acoustics. --- Biophysics. --- Biological physics. --- Life Sciences. --- Biophysics and Biological Physics. --- Animal Physiology. --- Word deafness --- Biological and Medical Physics, Biophysics. --- Neural sciences --- Neurological sciences --- Medical sciences --- Nervous system --- Animal physiology --- Animals --- Biology --- Anatomy --- Medicine --- Neuropsychiatry --- Diseases --- Neurology . --- Biological physics --- Physics
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From its inception in 1969, The International Symposium on Hearing has been a forum of excellence for debating the neurophysiological basis of auditory perception, with computational models as tools to test and unify physiological and perceptual theories. Every paper in this symposium includes two of the following: auditory physiology, psychophysics or modeling. The topics range from cochlear physiology to auditory attention and learning. The Neurophysiological Bases of Auditory Perception has a bottom-up structure from simpler' physiological to more complex' perceptual phenomena and follows the order of presentations at the 2009 meeting. The volume describes state-of-the-art knowledge on the most current topics of auditory science and will act as a valuable resource to stimulate further research. Enrique A. Lopez-Poveda, Ph.D. is Director of the Auditory Computation and Psychoacoustics Unit of the Neuroscience Institute of Castilla y León (University of Salamanca, Spain). His research focuses on modeling human cochlear nonlinear signal processing and understanding the role of the peripheral auditory system in normal and impaired auditory perception. Alan R. Palmer, Ph.D. is Deputy Director of the MRC Institute of Hearing Research and holds a Special Professorship in Neuroscience at the University of Nottingham,United Kingdom. He heads a research team that uses neurophysiological, computational and neuroanatomical techniques to study the way the brain processes sound. Ray Meddis, Ph.D. is Director of the Hearing Research Laboratory at the University of Essex,United Kingdom. His research has concentrated on the development of computer models of the physiology of the auditory periphery and how these can be incorporated into models of psychophysical phenomena such as pitch and auditory scene analysis.
Vibrations --- General biophysics --- Animal physiology. Animal biophysics --- Physiology of nerves and sense organs --- Neuropathology --- geluidsleer --- akoestiek --- biofysica --- neurologie --- hersenen --- fysiologie --- zoölogie --- neurobiologie --- proefdieren
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This volume, Computational Models of the Auditory System, has as a systems approach where the focus is on studies which contribute to the big picture of hearing. In effect, the work covered in this volume, and the volume itself, builds a global model of audition. The chapters, rather than focusing on details of individual components of the hearing system, address the concerns of readers and researchers who want to know how the auditory system works as a whole. Contents: Overview - Raymond Meddis and Enrique A. Lopez-Poveda Auditory periphery; from the pinna to the auditory nerve Raymond Meddis and Enrique A. Lopez-Poveda The Cochlear Nucleus - the New Frontier Herbert F. Voigt and Xiaohan Zheng Models of the Superior Olivary Complex Todd R. Jennings and H. Steven Colburn Auditory Cortex: the Final Frontier Jos J. Eggermont Computational Models of Inferior Colliculus Neurons Kevin A. Davis, Kenneth E. Hancock, and Bertrand Delgutte Computational Modeling of Sensorineural Hearing Loss Michael G. Heinz. Physiological Models of Auditory Scene Analysis Guy J. Brown Use of Auditory Models in Developing Coding Strategies for Cochlear Implants Blake S. Wilson, Enrique A. Lopez-Poveda, and Reinhold Schatzer Silicon Models of the Auditory Pathway André van Schaik, Tara Julia Hamilton, and Craig Jin About the Editors: Raymond Meddis is Director of the Hearing Research Laboratory in the Department of Psychology at the University of Essex. Enrique A. Lopez-Poveda is Director of the Auditory Computation and Psychoacoustics Unit of the Neuroscience Institute of Castilla y León, University of Salamanca. Arthur N. Popper is Professor in the Department of Biology and Co-Director of the Center for Comparative and Evolutionary Biology of Hearing at the University of Maryland, College Park. Richard R. Fay is Director of the Parmly Hearing Institute and Professor of Psychology at Loyola University of Chicago. About the series: The Springer Handbook of Auditory Research presents a series of synthetic reviews of fundamental topics dealing with auditory systems. Each volume is independent and authoritative; taken as a set, this series is the definitive resource in the field.
Physiology of nerves and sense organs --- Neuropathology --- neurologie --- hersenen --- neurobiologie
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From its inception in 1969, The International Symposium on Hearing has been a forum of excellence for debating the neurophysiological basis of auditory perception, with computational models as tools to test and unify physiological and perceptual theories. Every paper in this symposium includes two of the following: auditory physiology, psychophysics or modeling. The topics range from cochlear physiology to auditory attention and learning. The Neurophysiological Bases of Auditory Perception has a bottom-up structure from ‘simpler’ physiological to more ‘complex’ perceptual phenomena and follows the order of presentations at the 2009 meeting. The volume describes state-of-the-art knowledge on the most current topics of auditory science and will act as a valuable resource to stimulate further research. Enrique A. Lopez-Poveda, Ph.D. is Director of the Auditory Computation and Psychoacoustics Unit of the Neuroscience Institute of Castilla y León (University of Salamanca, Spain). His research focuses on modeling human cochlear nonlinear signal processing and understanding the role of the peripheral auditory system in normal and impaired auditory perception. Alan R. Palmer, Ph.D. is Deputy Director of the MRC Institute of Hearing Research and holds a Special Professorship in Neuroscience at the University of Nottingham,United Kingdom. He heads a research team that uses neurophysiological, computational and neuroanatomical techniques to study the way the brain processes sound. Ray Meddis, Ph.D. is Director of the Hearing Research Laboratory at the University of Essex,United Kingdom. His research has concentrated on the development of computer models of the physiology of the auditory periphery and how these can be incorporated into models of psychophysical phenomena such as pitch and auditory scene analysis.
Vibrations --- General biophysics --- Animal physiology. Animal biophysics --- Physiology of nerves and sense organs --- Neuropathology --- geluidsleer --- akoestiek --- biofysica --- neurologie --- hersenen --- fysiologie --- zoölogie --- neurobiologie --- proefdieren
Choose an application
This volume, Computational Models of the Auditory System, has as a systems approach where the focus is on studies which contribute to the big picture of hearing. In effect, the work covered in this volume, and the volume itself, builds a global model of audition. The chapters, rather than focusing on details of individual components of the hearing system, address the concerns of readers and researchers who want to know how the auditory system works as a whole. Contents: Overview - Raymond Meddis and Enrique A. Lopez-Poveda Auditory periphery; from the pinna to the auditory nerve Raymond Meddis and Enrique A. Lopez-Poveda The Cochlear Nucleus - the New Frontier Herbert F. Voigt and Xiaohan Zheng Models of the Superior Olivary Complex Todd R. Jennings and H. Steven Colburn Auditory Cortex: the Final Frontier Jos J. Eggermont Computational Models of Inferior Colliculus Neurons Kevin A. Davis, Kenneth E. Hancock, and Bertrand Delgutte Computational Modeling of Sensorineural Hearing Loss Michael G. Heinz. Physiological Models of Auditory Scene Analysis Guy J. Brown Use of Auditory Models in Developing Coding Strategies for Cochlear Implants Blake S. Wilson, Enrique A. Lopez-Poveda, and Reinhold Schatzer Silicon Models of the Auditory Pathway André van Schaik, Tara Julia Hamilton, and Craig Jin About the Editors: Raymond Meddis is Director of the Hearing Research Laboratory in the Department of Psychology at the University of Essex. Enrique A. Lopez-Poveda is Director of the Auditory Computation and Psychoacoustics Unit of the Neuroscience Institute of Castilla y León, University of Salamanca. Arthur N. Popper is Professor in the Department of Biology and Co-Director of the Center for Comparative and Evolutionary Biology of Hearing at the University of Maryland, College Park. Richard R. Fay is Director of the Parmly Hearing Institute and Professor of Psychology at Loyola University of Chicago. About the series: The Springer Handbook of Auditory Research presents a series of synthetic reviews of fundamental topics dealing with auditory systems. Each volume is independent and authoritative; taken as a set, this series is the definitive resource in the field.
Physiology of nerves and sense organs --- Neuropathology --- neurologie --- hersenen --- neurobiologie
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