By Ray Meddis, Enrique Lopez-Poveda, Richard R. Fay, Arthur N. Popper
This quantity, Computational versions of the Auditory procedure, has as a platforms technique the place the focal point is on stories which give a contribution to the massive photograph of listening to. In impact, the paintings coated during this quantity, and the quantity itself, builds an international version of audition. The chapters, instead of concentrating on information of person elements of the listening to approach, tackle the troubles of readers and researchers who need to know how the auditory process works as a whole.
- Overview - Raymond Meddis and Enrique A. Lopez-Poveda
- Auditory outer edge; from the pinna to the auditory nerve Raymond Meddis and Enrique A. Lopez-Poveda
- The Cochlear Nucleus - the recent Frontier Herbert F. Voigt and Xiaohan Zheng
- Models of the very best Olivary advanced Todd R. Jennings and H. Steven Colburn
- Auditory Cortex: the ultimate Frontier Jos J. Eggermont
- Computational versions of Inferior Colliculus Neurons Kevin A. Davis, Kenneth E. Hancock, and Bertrand Delgutte
- Computational Modeling of Sensorineural listening to Loss Michael G. Heinz.
- Physiological versions of Auditory Scene research man J. Brown
- Use of Auditory types in constructing Coding thoughts for Cochlear Implants Blake S. Wilson, Enrique A. Lopez-Poveda, and Reinhold Schatzer
- Silicon types of the Auditory Pathway André van Schaik, Tara Julia Hamilton, and Craig Jin
About the Editors:
Raymond Meddis is Director of the listening to learn Laboratory within the division of Psychology on the college of Essex. Enrique A. Lopez-Poveda is Director of the Auditory Computation and Psychoacoustics Unit of the Neuroscience Institute of Castilla y León, collage of Salamanca. Arthur N. Popper is Professor within the division of Biology and Co-Director of the guts for Comparative and Evolutionary Biology of listening to on the collage of Maryland, university Park. Richard R. Fay is Director of the Parmly listening to Institute and Professor of Psychology at Loyola college of Chicago.
About the series:
The Springer guide of Auditory learn provides a chain of man-made experiences of primary subject matters facing auditory structures. each one quantity is autonomous and authoritative; taken as a collection, this sequence is the definitive source within the box.
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Additional info for Computational Models of the Auditory System
48–56. Zeddies DG, Siegel JH (2004) A biophysical model of an inner-hair cell. J Acoust Soc Am 116:426–441. Zhang X, Carney LH (2005) Analysis of models for the synapse between the inner hair cell and the auditory nerve. J Acoust Soc Am 118:1540–1553. Zhang X, Heinz MG, Bruce IC, Carney LH (2001) A phenomenological model for the responses of auditory-nerve fibers: I. Nonlinear tuning with compression and suppression. J Acoust Soc Am 109:648–670. Zwislocki J (1962) Analysis of the middle-ear function.
Individual component stages are always compromises in terms of simulation accuracy. Part of the problem is the need to compute the result in a reasonable amount of time but it is also the case that researchers have not yet finally agreed on the details of any one processing stage. Models will need to change as new data and new insights are published. Nevertheless, models are already good enough to use them in a range of applications. The nonlinear nature of the auditory periphery has many unexpected consequences, and it is important that the user of any model should appreciate from the outset that a computer model of the auditory periphery is not simply a biological way to generate a spectral analysis of the input sound.
J Acoust Soc Am 105:2384–2391. Cheatham MA, Dallos P (2001) Inner hair cell response patterns: implications for low-frequency hearing. J Acoust Soc Am 110:2034–2044. Cooper NP (1996) Two-tone suppression in cochlear mechanics. J Acoust Soc Am 99:3087–3098. Cooper NP (2004) Compression in the peripheral auditory system. In: Bacon SP, Fay RR, Popper AN (eds), Compression: From Cochlea to Cochlear Implants. New York: Springer, pp. 19–61. Dallos P (1984) Some electrical circuit properties of the organ of Corti: II.