Description
Book SynopsisHuman and Machine Hearing is the first book to comprehensively describe how human hearing works and how to build machines to analyze sounds in the same way that people do. Drawing on over thirty-five years of experience in analyzing hearing and building systems, Richard F. Lyon explains how we can now build machines with close-to-human abilities in speech, music, and other sound-understanding domains. He explains human hearing in terms of engineering concepts, and describes how to incorporate those concepts into machines for a wide range of modern applications. The details of this approach are presented at an accessible level, to bring a diverse range of readers, from neuroscience to engineering, to a common technical understanding. The description of hearing as signal-processing algorithms is supported by corresponding open-source code, for which the book serves as motivating documentation.
Trade Review'Lyon is a great teacher and he has a deep understanding of the science and art of machine hearing. The reader will be greatly rewarded for engaging with any and all sections of the book.' Roy D. Patterson, University of Cambridge, from the Foreword
'If you want to read an engaging and informative history of the study of hearing and you want to learn about the science of hearing, you should read Human and Machine Hearing. If you want to build a hearing 'machine,' you must read Human and Machine Hearing.' William Yost, Arizona State University and best-selling author of Fundamentals of Hearing: An Introduction
'This is a wonderfully written and much-needed book, written by a true world-class expert in the field. It is an ideal reference for students and professional researchers alike - authoritative and delightfully readable. It provides the best and most up-to-date coverage of auditory neuroscience and modeling there is.' Daniel J. Levitin, best-selling author of This Is Your Brain on Music
Table of ContentsPart I. Sound Analysis and Representation Overview: 1. Introduction; 2. Theories of hearing; 3. On logarithmic and power-law hearing; 4. Human hearing overview; 5. Acoustic approaches and auditory influence; Part II. Systems Theory of Hearing: 6. Introduction to linear systems; 7. Discrete-time and digital systems; 8. Resonators; 9. Gammatone and related filters; 10. Nonlinear systems; 11. Automatic gain control; 12. Waves in distributed systems; Part III. The Auditory Periphery: 13. Auditory filter models; 14. Modeling the cochlea; 15. The CARFAC digital cochlear model; 16. The cascade of asymmetric resonators; 17. The outer hair cell; 18. The inner hair cell; 19. The AGC loop filter; Part IV. The Auditory Nervous System: 20. Auditory nerve and cochlear nucleus; 21. The auditory image; 22. Binaural spatial hearing; 23. The auditory brain; Part V. Learning and Applications: 24. Neural networks for machine learning; 25. Feature space; 26. Sound search; 27. Musical melody matching; 28. Other applications.
