By Ray Meddis, Enrique Lopez-Poveda, Richard R. Fay, Arthur N. Popper
This quantity, Computational types of the Auditory procedure, has as a structures technique the place the focal point is on reviews which give a contribution to the large photograph of listening to. In influence, the paintings coated during this quantity, and the quantity itself, builds a world version of audition. The chapters, instead of targeting info of person parts of the listening to approach, deal with 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 complicated 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 types of Auditory Scene research man J. Brown
- Use of Auditory versions in constructing Coding ideas 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, college 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 collage of Chicago.
About the series:
The Springer guide of Auditory learn offers a chain of artificial studies of primary subject matters facing auditory structures. every one quantity is self reliant and authoritative; taken as a suite, this sequence is the definitive source within the box.
Read or Download Computational Models of the Auditory System PDF
Similar computational mathematicsematics books
The aim of this quantity is to give the foundations of the Augmented Lagrangian technique, including quite a few functions of this technique to the numerical resolution of boundary-value difficulties for partial differential equations or inequalities bobbing up in Mathematical Physics, within the Mechanics of continuing Media and within the Engineering Sciences.
Computational fluid dynamics (CFD) and optimum form layout (OSD) are of useful significance for lots of engineering purposes - the aeronautic, vehicle, and nuclear industries are all significant clients of those applied sciences. Giving the cutting-edge fit optimization for a longer diversity of purposes, this new version explains the equations had to comprehend OSD difficulties for fluids (Euler and Navier Strokes, but additionally these for microfluids) and covers numerical simulation suggestions.
- Intelligence and Security Informatics: Techniques and Applications
- The Finite Element Method Set, Sixth Edition
- Logic and Computational Complexity: International Workshop LCC'94 Indianapolis, IN, USA, October 13–16, 1994 Selected Papers
- On the algebraical and numerical theory of errors of observations and the combination of observations (2nd editions, revised, 1875)
- Mechanisms in Classical Conditioning: A Computational Approach
Extra resources for Computational Models of the Auditory System
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. Analysis including reactive elements.
Augustine GJ, Charlton MP, Smith SJ (1985) Calcium entry into voltage-clamped pre-synaptic terminals of squid. J Physiol 367:143–162. Bacon SP (2004) Overview of auditory compression. In: Bacon SP, Fay RR, Popper AN (eds), Compression: From Cochlea to Cochlear Implants. New York: Springer, pp. 1–17. Burkhard MD, Sachs RM (1975) Anthropometric manikin for acoustic research. J Acoust Soc Am 58:214–222. Carlile S, Pralong D (1994) The location-dependent nature of perceptually salient features of the human head-related transfer functions.
14–20. Lopez-Najera A, Lopez-Poveda EA, Meddis R (2007) Further studies on the dual-resonance nonlinear filter model of cochlear frequency selectivity: responses to tones. J Acoust Soc Am 122:2124–2134. Lopez-Poveda EA (1996) The physical origin and physiological coding of pinna-based spectral cues. PhD thesis, Loughborough University, UK. Lopez-Poveda EA (2003) An approximate transfer function for the dual-resonance nonlinear filter model of auditory frequency selectivity. J Acoust Soc Am 114:2112–2117.
Computational Models of the Auditory System by Ray Meddis, Enrique Lopez-Poveda, Richard R. Fay, Arthur N. Popper