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  • UB Potsdam  (5)
  • SB Rathenow
  • Zentrum f. Militärgeschichte
  • SB Ruhland
  • Fay, Richard R.  (5)
  • 1
    Online Resource
    Online Resource
    Synaptic Mechanisms in the Auditory System (2012)
    New York, NY : Springer Science+Business Media, LLC
    Details
    UID:
    gbv_1651285969
    Format: Online-Ressource (XIV, 231p. 37 illus., 13 illus. in color, digital)
    ISBN: 9781441995179 , 1283350742 , 9781283350747
    Series Statement: Springer Handbook of Auditory Research 41
    Content: Synaptic mechanisms are the groundwork for all auditory processing. Understanding them requires knowledge of the microphysiology of synapses, cellular biophysics, and¡ receptor pharmacology, as well as an appreciation for what unique jobs auditory synapses must carry out.¡ Synaptic Mechanisms in the Auditory System provides a basic reference for students, clinicians, and researchers on how synapses in the auditory system function to encode acoustic signals. Sound and Synapse {u2013} Laurence O. Trussell Neuronal Response Properties and Voltage-gated Ion Channels in the Auditory System {u2013} Nace L. Golding The Hair Cell Synapse {u2013} Teresa Nicolson The Endbulbs of Held {u2013} Paul B. Manis, Ruili Xie, Yong Wang, Glen S. Marrs, and George A. Spirou The Calyces of Held {u2013} J.G.G. Borst and S.I. Rusu Synaptic Mechanisms of Coincidence Detection {u2013} Katrina M. MacLeod and Catherine E. Carr Inhibitory Neurons in the Auditory Brainstem {u2013} Laurence O. Trussell Modulatory Mechanisms Controlling Auditory Processing {u2013} Raju Metherate Mechanisms of Memory and Learning in the Auditory System {u2013} Thanos Tzounopoulos and Ricardo M. Leão About the Editors: Laurence O. Trussell is Professor in the Oregon Hearing Research Center and Vollum¡ Institute at the Oregon Health & Science University. Arthur N. Popper is a 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 Professor Emeritus in the¡Department of Psychology¡at Loyola University 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. ¡ ¡ ¡ ¡ ¡
    Content: Synaptic Mechanisms in the Auditory System will provide a basic reference for students, clinicians, and researchers on how synapses in the auditory system function to encode acoustic signals. These mechanisms are the groundwork for all auditory processing, and understanding them requires knowledge of the microphysiology of synapses, cellular biophysics, receptor pharmacology, and an appreciation for what these synapses must do for a living, what unique jobs they carry out
    Note: Includes bibliographical references and index , Synaptic Mechanisms in the Auditory System; Series Preface; Volume Preface; Contents; Contributors; Chapter 1: Sound and Synapse; 1 Introduction; 2 Overview; 3 New Horizons; References; Chapter 2: Neuronal Response Properties and Voltage-Gated Ion Channels in the Auditory System; 1 Introduction; 2 The Spatial and Temporal Structure of Auditory Input to the Brain; 3 Synaptic and Voltage-Gated Ion Channel Properties for Precise Temporal Coding; 3.1 Circuits That Utilize Timing Information; 3.1.1 Coincidence Detection Across Frequencies in Octopus Cells of the Ventral Cochlear Nucleus , 3.1.2 Computation of Interaural Time Differences in the Medial Superior Olive3.1.3 Computation of Interaural Level Difference in the Lateral Superior Olive; 3.2 Glutamate Receptor Properties for Fast Synaptic Excitation in Time-Coding Auditory Neurons; 3.3 Resting Membrane Properties Establish the Time Course and Sensitivity of Synaptic Integration; 3.3.1 Contribution of Passive Leak Channels to Resting Membrane Properties; 3.3.2 Contribution of Voltage-Gated Ion Channels to Resting Membrane Properties; Low Voltage-Activated Potassium Channels; Hyperpolarization-Activated Cation Channels , 3.4 Control of Synaptic Integration and Action Potential Timing by Low Voltage-Activated Potassium Channels3.4.1 Influence of Low Voltage-Activated Potassium Channels on Synaptic Potentials; 3.4.2 Effects of Low Voltage-Activated Potassium Channels on Action Potentials; 3.5 Control of Action Potential Signaling by High Voltage-Activated Potassium Channels; 3.6 Ion Channel Gradients Across Tonotopic Maps and Within Cells; 3.6.1 Potassium Channel Gradients Across Tonotopic Maps; 3.6.2 Gradients of Voltage-Gated Potassium and Sodium Channel Gradients in the Dendrites of Single Cells , 4 Circuits that Transform Action Potential Patterns: The Influence of Voltage-Gated Ion Channels4.1 Chopping Responses in Neurons of the Ventral Cochlear Nucleus and Superior Olive; 4.2 The Influence of A-Type Potassium Channels on Pauser/Buildup Responses in Fusiform Cells of the Dorsal Cochlear Nucleus; 4.3 Complex Spikes in Cartwheel Cells of the DCN; 5 Influence of Action Potential Initiation and Backpropagation on Auditory Coding; 6 Summary; 6.1 Two Broad Classes of Time-Coding Auditory Neurons; 6.2 Plasticity and Regulation of Ion Channel Function; References , Chapter 3: The Hair Cell Synapse1 Introduction; 2 Anatomy of the Hair Cell Synapse; 3 Physiology of the Hair Cell Synapse; 3.1 Linear Processing; 3.2 Vesicle Pools and Multivesicular Release; 3.3 Adaptation; 4 Molecular Components of the Hair Cell Synapse; 4.1 The Ribbon Complex; 4.2 Calcium Channels; 4.3 Exo- and Endocytosis Machinery and Calcium Sensors; 4.4 Glutamatergic Components; 5 Efferent Synapses on Hair Cells; 6 Summary; References; Chapter 4: The Endbulbs of Held; 1 Introduction; 2 Single-Unit Studies; 3 Neuroanatomy of Auditory Nerve Innervation of Bushy Cells , 3.1 Discovery of Endbulbs and Their Innervation of Bushy Cells
    Additional Edition: ISBN 9781441995162
    Additional Edition: Buchausg. u.d.T. Synaptic mechanisms in the auditory system New York : Springer, 2012 ISBN 9781441995162
    Language: English
    Subjects: Biology
    RVK:
    WW 1660
    Keywords: Hören ; Synaptische Erregungsübertragung ; Lautwahrnehmung ; Synaptische Transmission
    DOI: 10.1007/978-1-4419-9517-9
    URL: Volltext
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  • 2
    Online Resource
    Online Resource
    Perspectives on Auditory Research (2014)
    New York, NY : Springer New York
    Details
    UID:
    gbv_1654449830
    Format: Online-Ressource (XIII, 667 p. 122 illus., 78 illus. in color, online resource)
    ISBN: 9781461491026
    Series Statement: Springer Handbook of Auditory Research 50
    Content: Perspectives on Auditory Research celebrates the last two decades of the Springer Handbook in Auditory Research. Contributions from the leading experts in the field examine the progress made in auditory research over the past twenty years, as well as the major questions for the future.
    Content: Perspectives on Auditory Research is the 50th volume in the 21-year history of the Springer Handbook of Auditory Research (SHAR). SHAR was originally conceived as having perhaps eight volumes on the fundamental and more mature topics of auditory neuroscience. The vision in developing SHAR was to ask authors to discuss the major concepts of the authors’ discipline. In other words, to have chapters that present the most expert conceptual overview of a particular field. In contrast to the past 49 volumes, volume 50 consists of essays by senior colleagues that focus on their contributions to auditory neuroscience in the past, on their views of the state of the field, and on their thoughts on the future of their field including the outstanding questions that are still unanswered. The chapters are written in the first person, and some provide “autobiographical” information. The aim was to have senior scholars think about their discipline and even their careers and write whatever they wanted. The result is a highly diverse series of chapters, all of which might be different in style and approach and which will be interesting and ‘fun” for the reader. The hope is that readers browse the book for the “fun of it” rather than look for specific topics. About the Editors: 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 Distinguished Research Professor of Psychology at Loyola University 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
    Note: Description based upon print version of record , A Brief History of SHARStructures, Mechanisms and Energetics in Temporal Processing -- The Human Auditory Cortex: In Search of the Flying Dutchman -- From Cajal to the Connectome: Building a Neuroanatomical Framework for Understanding the Auditory System -- Recording from Hair Cells -- Three Decades of Tinnitus Related Research -- The Sense of Hearing in Fishes -- A Quarter-Century’s Perspective on a Psychoacoustical Approach to Loudness -- Nonsyndromic Deafness: It Ain’t Necessarily So -- Evolving Mechanosensory Hair Cells to Hearing Organs by Altering Genes and Their Expression -- The Implications of Discharge Regularity-My Forty-Year Peek into the Vestibular System -- Aging, Hearing Loss and Speech Recognition: Stop Shouting, I Can’t Understand You -- Cochlear Mechanics, Otoacoustic Emissions and Medial Olivocochlear Efferents: 20 Years of Advances and Controversies Along with Areas Ripe for New Work -- Examining Fish in the Sea: A European Perspective on Fish Hearing Experiments -- The Behavioral Study of Mammalian Hearing -- Hearing in Insects: The Why, When and How -- The Cognitive Auditory System -- Fundamentals of Hearing in Amniote Vertebrate -- Directional Hearing in Insects and Other Small Animals: The Physics of Pressure-Difference Receiving Ears -- Cortical Representation of Sound Locations: Distributed Representation by Magnitude and Timing of Neural Spike Patterns -- Mechanisms Underlying the Pitch of Pure and Complex Tones -- Unavoidably Delayed: A Personal Perspective of Twenty Years of Research on a Sound Localization Cue -- Size Matters in Hearing: How the Auditory System Normalizes the Sounds of Speech and Music for Source Size -- A Changing View of the Auditory System Obtained from the Ears of Bats -- From Cave Fish to Pile Driving: A Tail of Fish Bioacoustics -- Current Topics in the Study of Sound Conduction to the Inner Ear -- From Degenerative Debris to Neuronal Tracing: An Anterograde View of Auditory Circuits -- Adventures in Bionic Hearing -- My Dull Deaf Ears: Four Millennia of Acquired Hearing Loss -- What’s the Use of Genetics? -- Advances in the Understanding of Binaural Information Processing: Consideration of the Stimulus as Processed -- Temporal Processing: Observations on the Psychophysics and Modeling of Temporal Integration and Temporal Resolution -- Psychoacoustics and Auditory Perception -- APPENDIX: Table of Contents from SHAR volumes 1-49.
    Additional Edition: ISBN 9781461491019
    Additional Edition: Druckausg. Perspectives on auditory research New York, NY [u.a.] : Springer, 2014 ISBN 9781461491019
    Language: English
    DOI: 10.1007/978-1-4614-9102-6
    URL: Volltext
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  • 3
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    Online Resource
    The Middle Ear : Science, Otosurgery, and Technology (2013)
    New York, NY : Springer
    Details
    UID:
    gbv_1652256954
    Format: Online-Ressource (XVI, 308 p. 60 illus., 25 illus. in color, digital)
    ISBN: 9781461465911
    Series Statement: Springer Handbook of Auditory Research 46
    Content: The middle ear plays a vital role in the sense and sensitivity of hearing. Of the various characteristics that distinguish mammals from other vertebrates, several pertain specifically to the middle-ear system, such as the presence of three middle-ear bones and the four-layer composite structure of the tympanic membrane. The Middle Ear attempts to elucidate the role this system plays in sound transmission, as viewed from both scientific and clinical perspectives.
    Content: The middle ear plays a vital role in the sense and sensitivity of hearing. Of the various characteristics that distinguish mammals from other vertebrates, several pertain specifically to the middle-ear system, such as the presence of three middle-ear bones and the four-layer composite structure of the tympanic membrane. The Middle Ear attempts to elucidate the role this system plays in sound transmission, as viewed from both scientific and clinical perspectives.· The Middle Ear: Science and Applications Sunil Puria· The Evolution and Development of Middle Ears in Land Vertebrates Geoffrey A. Manley and Ulrike J. Sienknecht· Comparative Middle-Ear Structure and Function in Vertebrates John J. Rosowski· Function and Acoustics of the Normal and Diseased Middle Ear Susan E. Voss, Hideko Heidi Nakajima, and Alexander M. Huber· Quasi-Static Pressures in the Middle-Ear Cleft Joris J. J. Dirckx, Yael Marcusohn, and Michael L. Gaihede· Bone Conduction and the Middle Ear Stefan Stenfelt· Modeling of Middle-Ear Mechanics W. Robert J. Funnell, Nima Maftoon, and Willem F. Decraemer· Diagnostic Measurements and Imaging Technologies for the Middle Ear Gerald R. Popelka and Lisa L. Hunter · Surgical Reconstruction and Passive Prostheses Saumil N. Merchant and John J. Rosowski· Middle-Ear Hearing Devices Sunil PuriaAbout the Editors:Sunil Puria is Consulting Associate Professor in the Departments of Mechanical Engineering and Otolaryngology-HNS at Stanford University. 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 Distinguished Research Professor of Psychology at Loyola University 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
    Note: Description based upon print version of record , The Middle Ear; Series Preface; Volume Preface; Editors' Note; Contents; Contributors; Chapter 1: The Middle Ear: Science and Applications; Chapter 2: The Evolution and Development of Middle Ears in Land Vertebrates; 2.1 Introduction; 2.2 The Water-Land Transition and Early Attempts at Middle Ears; 2.3 Middle Ears Developed Late in Evolution and Many Times Independently; 2.4 The Single-Ossicle Middle Ear of Archosaurs and Lepidosaurs; 2.5 The Origins of Mammalian Middle Ears; 2.6 Middle Ear Development in the Ontogeny of Mammals and Nonmammals , 2.7 Function of the Early Mammalian Middle and Inner Ear2.8 Mammals: Correlations of Middle and Inner Ear and Brain Evolution; 2.9 Pinnae; 2.10 Summary; References; Chapter 3: Comparative Middle Ear Structure and Function in Vertebrates; 3.1 Introduction; 3.2 Sound Stimulation of the Inner Ears of Vertebrates; 3.2.1 What Is Sound?; 3.2.2 Sound Reception Within Vertebrate Inner Ears; 3.3 Specializations for Conducting Sound to the Inner Ear; 3.3.1 Fish Without a Specialized Sound-Conduction Apparatus; 3.3.2 Fish: Ears with Close Connections to a Swim Bladder , 3.3.3 Amphibians: The Transition to Land3.3.3.1 Specializations in the Periotic Lymphatic Spaces of Amphibians; 3.3.3.2 Variations in the Structure of the Middle Ear in Amphibia; 3.3.3.3 Extratympanic Sound Conduction in Amphibians; 3.3.3.4 Feedback Control of Middle Ear Function; 3.3.4 The Columellar Ear of Reptiles and Birds; 3.3.4.1 The Inner Ears of Reptiles and Birds; 3.3.4.2 The Tympano-ossicular Middle Ear in Reptiles and Birds; 3.3.4.3 The Columellar Muscle; 3.3.5 The Three-Ossicle Ear of Mammals; 3.3.5.1 The Inner Ear of Mammals and Its Sensitivity to Sound , 3.3.5.2 The Three Mammalian Ossicles3.3.5.3 Two Mammalian Middle Ear Muscles; 3.3.5.4 The Mammalian Tympanic Membrane; 3.3.5.5 The Middle Ear Air Spaces; 3.3.5.6 Correlations Between Mammalian Middle Ear Structure and Hearing Capabilities; 3.3.5.7 Middle Ear Function in Marine Mammals; 3.4 Issues in Comparative Middle Ear Function; 3.4.1 The Frequency Dependence of the Middle Ear Mechanism; 3.4.1.1 Are Three Ossicles Better than One?; 3.4.1.2 The Middle Ear and Audibility; 3.4.2 The Role of the TM in Sound Conduction , 3.4.3 The Two-Window Hypothesis: Evidence for and Against a Normal ``Third Window´´3.5 Summary; References; Chapter 4: Function and Acoustics of the Normal and Diseased Middle Ear; 4.1 Introduction; 4.2 The Normal Middle Ear; 4.2.1 Measures of Normal Middle Ear Function; 4.2.2 Function of Individual Parts of the Normal Middle Ear; 4.2.2.1 Tympanic Membrane; 4.2.2.2 Malleus and Incus Complex Motion; 4.2.2.3 Stapes Motion; 4.3 The Diseased Middle Ear; 4.3.1 Overview; 4.3.2 The Middle Ear Cavity; 4.3.3 Disorders that Involve the Tympanic Membrane; 4.3.3.1 TM Perforations and Tympanostomy Tubes , 4.3.3.2 TM Atelectasis
    Additional Edition: ISBN 9781461465904
    Additional Edition: Buchausg. u.d.T. The middle ear New York [u.a.] : Springer, 2013 ISBN 9781461465904
    Language: English
    Subjects: Medicine
    RVK:
    YI 6976
    Keywords: Mittelohr
    DOI: 10.1007/978-1-4614-6591-1
    URL: Volltext
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  • 4
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    Online Resource
    The Human Auditory Cortex (2012)
    New York, NY : Springer New York
    Details
    UID:
    gbv_1651473420
    Format: Online-Ressource (XIV, 396p. 76 illus., 30 illus. in color, digital)
    ISBN: 9781461423140 , 9781461423133
    Series Statement: Springer Handbook of Auditory Research 43
    Content: Richard R. Fay
    Content: We live in a complex and dynamically changing acoustic environment. To this end, the auditory cortex of humans has developed the ability to process a remarkable amount of diverse acoustic information with apparent ease. In fact, a phylogenetic comparison of auditory systems reveals that human auditory association cortex in particular has undergone extensive changes relative to that of other species, although our knowledge of this remains incomplete. In contrast to other senses, human auditory cortex receives input that is highly pre-processed in a number of sub-cortical structures; this suggests that even primary auditory cortex already performs quite complex analyses. At the same time, much of the functional role of the various sub-areas in human auditory cortex is still relatively unknown, and a more sophisticated understanding is only now emerging through the use of contemporary electrophysiological and neuroimaging techniques. The integration of results across the various techniques signify a new era in our knowledge of how human auditory cortex forms basis for auditory experience. This volume on human auditory cortex will have two major parts. In Part A, the principal methodologies currently used to investigate human auditory cortex will be discussed. Each chapter will first outline how the methodology is used in auditory neuroscience, highlighting the challenges of obtaining data from human auditory cortex; second, each methods chapter will provide two or (at most) three brief examples of how it has been used to generate a major result about auditory processing. In Part B, the central questions for auditory processing in human auditory cortex are covered. Each chapter can draw on all the methods introduced in Part A but will focus on a major computational challenge the system has to solve. This volume will constitute an important contemporary reference work on human auditory cortex. Arguably, this will be the first and most focused book on this critical neurological structure. The combination of different methodological and experimental approaches as well as a diverse range of aspects of human auditory perception ensures that this volume will inspire novel insights and spurn future research.
    Note: Description based upon print version of record , The Human Auditory Cortex; Series Preface; Volume Preface; Contents; Contributors; Chapter 1: Introduction: Why Human Auditory Cortex?; References; Part I: The Methods; Chapter 2: Architecture, Connectivity, and Transmitter Receptors of Human Auditory Cortex; 2.1 Introduction; 2.2 Historic Concepts and Maps of Human Auditory Cortex; 2.3 Primary Auditory Area; 2.3.1 Relationship Between Heschl's Gyrus and Primary Auditory Cortex; 2.3.2 Architectonic Features of Primary Auditory Cortex; 2.3.3 Intra-areal Compartments Within the Primary Auditory Area , 2.4 Nonprimary Auditory Areas on the Supratemporal Plane2.4.1 Cyto- and Myeloarchitecture; 2.4.2 Putative Functional Specialization of Nonprimary Auditory Areas; 2.5 Temporal and Parietal Convexities; 2.6 Intersubject Variability and Probabilistic Mapping; 2.7 Hemispheric Asymmetries; 2.8 Connectivity of Auditory Cortex; 2.9 Summary; References; Chapter 3: Invasive Research Methods; 3.1 Introduction; 3.2 Brief Historic Overview; 3.3 Contemporary Research; 3.3.1 Research Subjects; 3.3.2 Acute Experiments; 3.3.3 Chronic Experiments; 3.3.3.1 Depth Electrodes; 3.3.3.2 Surface Grid Electrodes , 3.3.3.3 Anatomical Reconstruction3.3.3.4 Stimulation and Recording; 3.4 Experimental Paradigms; 3.4.1 Functional Mapping by Electrophysiological Recording; 3.4.1.1 Signal Processing; 3.4.1.2 Coding of Stimulus Acoustic Features; 3.4.2 Functional Connectivity; 3.4.3 Electrical Stimulation Functional Mapping; 3.5 Validity of Invasive Recordings; 3.6 Summary; References; Chapter 4: Recording Event-Related Brain Potentials: Application to Study Auditory Perception; 4.1 Introduction; 4.2 Recording of Neuroelectric Brain Activity , 4.3 Auditory Scene Analysis as the Building Block of Higher Auditory Cognition4.4 Concurrent Sound Segregation; 4.5 Sequential Sound Segregation; 4.6 Attention, Prediction, and Auditory Scene Analysis; 4.7 Concluding Remarks; References; Chapter 5: Magnetoencephalography; 5.1 The Case for Magnetoencephalography Imaging; 5.2 Sensing the Brain's Magnetic Fields; 5.3 From Sensing to Imaging; 5.3.1 Forward Models Describing Brain Activity and Measurements; 5.3.2 Inverse Models for Reconstructing Brain Activity from Measurements; 5.3.3 Sources of Noise in MEG , 5.3.4 Temporal and Spatial Resolution of MEG Imaging5.3.5 From Single-Subject Reconstructions to Group-Level Inference; 5.4 Auditory Studies Using MEG; 5.4.1 Transient Auditory Evoked Fields; 5.4.2 Evoked Responses to Non-speech Acoustic Stimuli; 5.4.3 Effects of Stimulus Timing and Pattern on Early Response Components; 5.4.4 Hemispheric Lateralization of Early Auditory Responses; 5.4.5 Mismatch Negativity Fields; 5.4.6 Steady-State Evoked Responses; 5.4.7 Evoked Responses to Speech Syllables; 5.4.8 Oscillations Induced by Speech Syllables; 5.4.9 Responses to Vowels , 5.4.10 Mismatch Negativity to Speech Sounds
    Additional Edition: ISBN 9781461423133
    Additional Edition: Buchausg. u.d.T. The human auditory cortex New York, NY : Springer, 2012 ISBN 9781461423133
    Language: English
    Subjects: Biology
    RVK:
    WW 2940
    Keywords: Hörrinde ; Lautwahrnehmung ; Aufsatzsammlung
    DOI: 10.1007/978-1-4614-2314-0
    URL: Volltext
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  • 5
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    Loudness (2011)
    New York, NY : Springer Science+Business Media, LLC
    Details
    UID:
    gbv_1650615426
    Format: Online-Ressource (XIV, 290p. 66 illus., 4 illus. in color, digital)
    ISBN: 9781441967121 , 1282971077 , 9781282971073
    Series Statement: Springer Handbook of Auditory Research 37
    Content: Loudness is the primary psychological correlate of intensity. When the intensity of a sound increases, loudness increases. However, there exists no simple one-to-one correspondence between loudness and intensity, loudness can be changed by modifying the frequency or the duration of the sound, or by adding background sounds. Loudness also changes with the listener's cognitive state. Loudness provides a basic reference for graduate students, consultants, clinicians, and researchers with a focus on recent discoveries. The book begins with an overview of the conceptual thinking related to the study of loudness, addresses issues related to its measurement, and later discusses the physiological effects of loud sounds, reaction times and electrophysiological measures that correlate with loudness. Loudness in the laboratory, loudness of steady-state sounds and the loudness of time-varying sounds are also covered, as are hearing loss and models.
    Note: Includes bibliographical references and index , Loudness; Series Preface; Volume Preface; Contents; Contributors; Chapter 1: Loudness; Chapter 2: Measurement of Loudness, Part I: Methods, Problems, and Pitfalls; Chapter 3: Measurement of Loudness, Part II: Context Effects; Chapter 4: Correlates of Loudness; Chapter 5: Loudness in the Laboratory, Part I: Steady-State Sounds; Chapter 6: Loudness in the Laboratory, Part II: Non-Steady-State Sounds; Chapter 7: Binaural Loudness; Chapter 8: Loudness in Daily Environments; Chapter 9: Loudness and Hearing Loss; Chapter 10: Models of Loudness
    Additional Edition: ISBN 9781441967114
    Additional Edition: Buchausg. u.d.T. Loudness New York, NY : Springer, 2010 ISBN 9781441967114
    Language: English
    Keywords: Lautstärke
    DOI: 10.1007/978-1-4419-6712-1
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