Yost, W.
Fundamentals of Hearing 5th. ed.
An Introduction
Academic Press 2006.10
352 pp.(H)
ISBN 0-12-370473-1
7,000円
Contents
1. The World We Hear, An Introduction/ Part I. The Auditory Stimulus: Sound: 2. Sinusoids, The Basic Sound/ 3. Sound Transmission and Sound Propagation/ 4. Complex Sounds/ 5. Sound Analysis/ Part II. Peripheral Auditory Anatomy and Physiology: 6. The Outer and Middle Ears/ 7. Structure of the Inner Ear and Its Mechanical Response/ 8. Peripheral Auditory Nervous System and Hair Cells/ 9. The Neural Response and the Auditory Code/ Part III. Auditory Sensation: 10. Auditory Sensitivity/ 11. Masking/ 12. Sound Localization and Binaural Hearing/ 13. Loudness and Pitch/ Part IV. Auditory Perception, the Central Nervous System, and Auditory Disorders: 14. Auditory Perception/ 15. The Central Auditory Nervous System/ 16. The Abnormal Auditory System/ Appendix A: Sinusoids and Trigonometry/ Appendix B: Logarithms/ Appendix C: Fourier Analysis/ Appendix D: Psychophysics/ Appendix E: Neural Anatomy and Physiology/ Appendix F: Techniques and Tools Used to Study Hearing/ Terms, Measurements, Equations, and Conversions/ Anatomical and Physiological Measurements/ Abbreviations and Symbols Used in the Text/ References (Primary, Secondary, Standards)/ Subject Index and Glossary/
* The fifth edition of this successful introductory text on hearing sciences includes auditory, anatomy, physiology, psychoacoustics, and perception content. Fundamentals of Hearing is one of only a few textbooks that covers all of hearing at an introductory level. *
Akay, M. ed.
Handbook of Neural Engineering
John Wiley & Sons 2007.1.17
662 pp.(H)
ISBN 0-470-05669-x
18,500円
Contents
Part 1 : Neural Signal and Image Processing and Modeling: 1. Optimal Signal Processing for Brain-Machine Interfaces./ 2. Modulation of Electrophysiological Activity in Neural Networks : Toward a Bioartificial Living System./ 3. Estimation of Posterior Probabilities with Neural Networks : Application to Microcalcification Detection in Breast Cancer Diagnosis./ 4. Identification of Cetral Auditory Processing Disorders by Binaurally Evoked Brainstem Responses./ 5. Functional Characterization of Adaptive Visual Encoding./ 6. Deconvolution of Overlapping Auditory Brainstem Responses Obtained at High Stimulus Rates./ 7. Autonomic Cardiac Modulation at Sinoatrial and Atrioventricular Nodes : Observations and Models./ 8. Neural Networks and Time-Frequency Analysis of Surface Electromyographic Signals for Muscle Cerebral Control./ 9. Multiresolution Fractal Analysis of Medical Images./ 10. Methods for Neural-Network-based Segmentation of Magnetic Resonance Images./ 11. High-Resolution EEG and Estimation of Cortical Activity for Brain-Computer Interface Applications./ 12. Estimation of Cortical Sources Related to Short-Term Memory in Humans with Highresolution EEG Recordings and Statistical Probability Mapping./ 13. Exploring Semantic Memory Areas by Functional MRI./ Part 2. Neuro-Nanotechnology : Artificial Implants and Neural Protheses: 14. Restoration of Movement by Implantable Neural Motor Prostheses./ 15. Hybrid Olfactory Biosensor using Multichannel Electroantennogram : Design and Application./ 16. Reconfigurable Retina-Like Preprocessing Platform for Cortical Visual Neuroprostheses./ 17. Biomimetic Integration of Neural and Acoustic Signal Processing./ 18. Retinal Image and Phsphene Image : An Analogy./ 19. Brain-Implantable Biomimetic Electronics as Neural Prostheses to Restore Lost Cognitive Function./ 20. Advances in Retinal Neuroprosthesis./ 21. Towrds a Cultured Neural Probe : Patterning of Networks and their Electrical Activity./ 22. Spike Superposition Resolution in Multichannel Extracellular Neural Recordings : A Novel Approach./ 23. Toward A Button-Sized 1024-Site Wireless Cortical Microstimulating Array./ 24. Practical Considerations in Retinal NeuroProsthesis Design./ Part 3. Neurorobotics and Neural Rehabilitation Engineering: 25. Interfacing Neural and Artificial Systems : From Neuroengineering to Neurorobotics./ 26. Neurocontroller for Robot Arms based on Biologically Inspired Visuomotor Coordination Neural Models./ 27. Muscle Synergies for Motor Control./ 28. Robots with Neural Building Blocks./ 29. Decoding Sensory Stimuli from Populations of Neurons : Methods for Long-Term Longitudinal Studies./ 30. Model of Mammalian Visual System with Optical Logic Cells./ 31. CNS Reorganization during Sensory-Supported Treadmill Training./ 32. Independent Component Analysis of Surface EMG for Detection of Single Motoneurons firing in Voluntary Isometric Contraction./ 33. Recent Advances in Composite AEP/EEG indices for Estimating Hypnotic Depth during General Anesthesia?./ 34. ENG Recording Amplifier Configurations for Tripoloar Cuff Electrodes./ 35. CAble Equation Model for Myelinated Nerve Fiber./ 36. Bayesian Networks for Modeling Cortical Integration./ 37. Normal and Abnorma Auditory Information Processing Revealed by Nonstationary Signal Analysis of EEG./ 38. Probing Oscillatory Visual Dynamics at the Perceptual Level./ 39. Nonlinear Approaches to Learning and Memory./ 40. Single-Trial Analysis of EEG for Enabling Cognitive user Interfaces./ Index./ About the Editor. *
Sataloff, R. T. & Sataloff, J.M.D.
Occupational Hearing Loss 3rd ed.
CRC Press 2006.4
1008 pp.(H)
ISBN 0-8247-5383-6
17,900円
Contents
1.Occupational Hearing Loss: An Overview/ 2.The Physics of Sound/ 3.The Nature of Hearing Loss/ 4.The Otologic History and Physical Examination/ 5.Classification and Measurement of Hearing Loss/ 6.The Audiogram/ 7.Special Hearing Tests/ 8.Auditory-Evoked Phenomena: Theory and Clinical Applications/ 9.Conductive Hearing Loss/ 10.Sensorineural Hearing Loss: Diagnostic Criteria/ 11.Sudden Sensorineural Hearing Loss/ 12.Mixed, Central, and Functional Hearing Loss/ 13.Systemic Causes of Hearing Loss/ 14.A Brief History of Occupational Hearing Loss: A Personal Perspective/ 15.Diagnosing Occupational Hearing Loss/ 16.Hearing Loss: Handicap and Rehabilitation/ 17.Hearing Protection Devices/18.Facial Paralysis/ 19.Squamous Cell Carcinoma of Temporal Bone/ 20.Sarcomas of the Temporal Bone/ 21.Hearing in Dogs/ 22.Tables Summarizing Differential Diagnosis/ 23.Noise Measurement/ 24.Noise Control/ 25.Noise Criteria Regarding Risk and Prevention of Hearing Injury in Industry/ 26.Hearing Loss and Other Otolaryngologic Complications of Scuba Diving/27.Neuenschwander/ 28.Hearing Conservation Underwater/ 29.Hearing Loss in Musicians/ 30.Hearing Conservation in Industry/ 31.Establishing a Hearing Conservation Program/ 32.Occupational Hearing Loss: Legislation and Compensation/ 33.OSHA Noise Regulation/ 34.Formulae Differences in State and Federal Hearing Loss Compensation/ 35.Occupational Hearing Loss in the Railroad Industry/ 36.The United States: The Longshore and Harbor Workers' Compensation Act/ 37.Occupational Hearing Loss in Canada/ 38.Occupational Hearing Loss in the United Kingdom/ 39.Tape Simulation of Hearing Loss/ 40.A Plaintiffs' Attorney's Perspective on Occupational Hearing Loss/ 41.Workers' Compensation: Presenting Medical Evidence in Hearing Loss Cases/ Appendix 1: Anatomy of the Ear/ Appendix 2: Otopathology/ Appendix 3: Otosclerosis, Paget's Disease, and Osteogenesis Imperfecta Involving the Ear/ Appendix 4: Neurofibromatosis/ Appendix 5: Hearing Conservation Procedures/ Appendix 6: Hearing Conservation Program Procedures and Reports/ Index/ *
Kanwal, J.
Behaviour and Neurodynamics in Auditory Communication
聴覚コミュニケーションにおける行動と神経力学
Cambridge University Press 2006.5
384 pp.(H)
ISBN 0-521-82918-6
13,000円
Contents
Preface Part I. Behavioral and Anatomical/Physiological Adaptations : 1.Vocal mechanisms for avian communication/ 2.The blind mole rat: an example of seismic communication via acoustic channels/ 3.Audiovocal communication and social behavior in mustached bats/ 4.Common rules of communication sound perception; Behavioral and physiological adaptations: summary and discussion/ Part II. Neural Adaptations and Plasticity : 5.Neural mechanisms of vocal communication: interfacing with neuroendocrine mechanisms/ 6.Processing of species specific vocalizations in the auditory brainstem and midbrain of Mexican free tailed bats (Tadarida brasiliensis)/ 7.A distributed cortical representation of social communication calls/ 8.Spatiotemporal processing in the guinea pig auditory cortex/ 9.Hierarchical processing of communication sounds in primates/ 10.Synaptic mechanisms and sensitive periods for song learning/ 11.Neuronal substrates of sensory processing for song perception and learning in songbirds: lessons from the mormyrid electric fish/ 12.Cortical plasticity and auditory communication/ 13.Mesoscopic neurodynamics in cortex during auditory concept learning; Neural adaptations and plasticity: summary and discussion/ Appendix: Basics of acoustic signal processing/
* How do animals produce and process sounds for communication? How do their brains encode the large amounts of sensory information so rapidly and how do they use this to cope with their environment? These questions not only concern the evolution of sound communication systems but also aim to understand how arousal, motivation, emotion and behavioral contexts are vocally expressed and how important sound attributes are recognized and perceived. This book highlights auditory communication in several species from four perspectives: actual sound communication, audio-vocal adaptations, adaptations of sound processing and representation in higher auditory brain centers, and emotional and cognitive adaptations in signaling and processing. Broad in scope and geared towards graduate students and researchers within the fields of auditory communication and cognition, this book will appeal to auditory neurobiologists, speech, hearing and communication scientists and engineers, students of animal behavior and neuroethologists. *
Moller, A.
Hearing 2nd ed.
Anatomy, Physiology, and Disorders of the Auditory System
Academic Press 2006.8
309 pp.(H)
ISBN 0-12-372519-4
11,600円
Contents
SECTION I: THE EAR: 1: Anatomy of the ear/ 2: Sound conduction to the cochlea/ 3: Physiology of the cochlea/ 4: Sound evoked electrical potentials in the cochlea/ References/ SECTION II: THE AUDITORY NERVOUS SYSTEM: 5: Anatomy of the auditory nervous system/ 6: Physiology of the auditory nervous system/ 7: Evoked potentials/ 8: The acoustic middle ear reflex/ SECTION III: DISORDERS OF THE AUDITORY SYSTEM: 9: Hearing impairment/ 10: Hyperactive disorders of the auditory system/ 11: Cochlear and brainstem implants/ APPENDIX A: Definitions in anatomy/ APPENDIX B: Hearing conservation programs/ List of Abbreviations/ Index/
* This book provides detailed information about the anatomy and physiology of the entire auditory system and it describes important aspects of disorders of the middle ear, the cochlea, and the nervous system in a comprehensive manner. Most other textbooks on Hearing are focused on either the periphery or the central nervous system and rarely integrate anatomy and physiology with clinical issues. *
Nuttall, A. et al. ed.
Auditory Mechanisms
Processing and Models
World Scientific Publishing Co.Pte. Ltd. 2006.8
588 pp.(H)
ISBN 981-256-824-7
16,800円
Proceedings of the Ninth International Symposium, Portland, Oregon, USA 23 - 28 July 2005
Contents
Part 1. Whole Organ Mechanics: 1.Medial-Olivocochlear-Efferent Effects on Basilar-Membrane and Auditory-Nerve Responses to Clicks/ 2.Atomic Force Microscopic Imaging of the Intracellular Membrane Surface of Prestin-Expressing Chinese Hamster Ovary Cells/ 3.Biomechanics of Dolphin Hearing: A Comparison of Middle and Inner Ear Stiffness with Other Mammalian Species/ Part 2. Hair Cells: 4.An Experimental Preparation of the Mammalian Cochlea That Displays Compressive Nonlinearity In Vitro/ 5.rea Change Paradox in Outer Hair Cells Membrane Motor/ 6.Outer Hair Cell Mechanics are Altered by Developmental Changes in Lateral Wall Protein Content/ Part 3. Stereocilia: 7.Signal Transformation by Mechanotransducer Channels of Mammalian Outer Hair Cells/ 8.The Cochlear Amplifier: Is it Hair Bundle Motion of Outer Hair Cells? / Part 4. Emissions: 9.Comparative Mechanisms of Auditory Function: Ground Sound Detection by Golden Moles / 10.The Biophysical Origin of Otoacoustic Emissions / 11.A Comparative Study of Evoked Otoacoustic Emissions in Geckos and Humans/ Part 5. Cochlear Models: 12.The Cochlea Box Model Once Again: Improvements and New Results/ 13.The Evolution of Multi-compartment Cochlear Models/ * and other papers *
Plack, C. J.
The Sense of Hearing
聴覚
LEA 2005.
280 pp.(P)
ISBN 0-8058-4884-3
6,000円
Contents
1.Introduction. 2.The Nature of Sound. 3.Production, Propagation, and Processing. 4.A Journey Through the Auditory System. 5.Frequency Selectivity. 6.Loudness and Intensity Coding. 7.Pitch and Periodicity Coding. 8.Hearing Over Time. 9.Spatial Hearing. 10.The Auditory Scene. 11.Speech. C12.oncluding Remarks/
* The Sense of Hearing is a truly accessible introduction to auditory perception that is intended for students approaching the subject for the first time, and as a foundation for more advanced study. In clear and authoritative prose, the fundamental aspects of hearing are addressed. The reader is introduced to the nature of sound and the spectrum, and the anatomy and physiology of the auditory system. Basic auditory processes including frequency selectivity, loudness and pitch perception, temporal resolution, and sound localization are explained. *
741-2 登録日 07.03.05
