References
- Bilsen F A, ten Kate J H, Buunen F, Raatgever J. Response of single units in the cochlear nucleus of the cat to cosine noise. J. Acoust. Soc. Am. 1975; 58: 858–66
- Blackburn C, Sachs M. The representation of the steady-state vowel /e/ in the discharge patterns of cat anteroventral cochlear nucleus neurons. J. Neurophysiol. 1990; 63: 1191–212
- Bonham B, Calhoun B, Schreiner C. Cells in the primary auditory cortex are not simple. Abs. Mid-Winter Meeting of Assoc. Res. Oto., St. Petersburg Beach, 1996
- Brockett R, Cebuhar W. Smoothing and linearization of discontinuous control systems. Dynamical Systems Approaches to Nonlinear Problems in Systems and Circuits, F Salam, M Levi. SIAM, Philadelphia 1988; 199–208
- Brugge J F, Merzenich M M. Responses of neurons in auditory cortex of the Macaque monkey to monaural and binaural stimulation. J. Neurophysiol. 1973; 36: 1138–58
- Calhoun B, Schreiner C. Spectral envelope coding in cat primary auditory cortex. J. Audit. Neurosci. 1995; 1: 39–61
- Clarey J, Barone P, Imig T. Physiology of thalamus and cortex. The Mammalian Auditory Pathway: Neurophysiology, D Webster, et al. Springer, Berlin 1992; 232–334
- Dallos P. The Auditory Periphery: Biophysics and Physiology. Academic, New York 1973
- Dallos P. The active cochlea. J. Neurosci. 1992; 12: 4575–85
- de Boer A E, de Jongh H R. On cochlear encoding: potentialities and limitations of the reverse-correlation technique. J. Acoust. Soc. Am. 1975; 63: 115–35
- De Valois R, De Valois K. Spatial Vision. Oxford University Press. 1990
- Deng L, Geisler C D, Greenberg S. A composite model of the auditory periphery for the processing of speech. J. Phonetics 1988; 93–108
- Depireux D, Shamma S. Representation of spectral shape in the inferior colliculus and the anterior auditory field of ferret. Abs. Soc. Neurosci. (San Diego) 1995
- Dong D, Atick J. Temporal decorrelation: A theory of lagged and nonlagged responses in the lateral geniculate nucleus. Network: Comput. Neuro. Sys. 1995; 6: 159–78
- Eggermont J. Temporal modulation transfer functions for AM and FM stimuli in cat auditory cortex. Effects of carrier type, modulating waveform and intensity. Hearing Res. 1994; 74: 51–66
- Greenwood D. A cochlear frequency-position function for several species-29 years later. J. Acoust. Soc. Am. 1990; 87: 2592–605
- Heil P, Langner G, Scheich H. Processing of FM stimuli in the chick auditory cortex analogue: evidence of topographic representations and possible mechanisms of rate and directional sensitivity. J. Comput. Physiol. A 1992; 171: 583–600
- Hillier D. Auditory processing of sinusoidal spectral envelopes. Washington University, St. Louis 1991, PhD Thesis
- Houtgast T. Auditory-filter characteristics derived from direct-masking data and pulsation-threshold with a ripple-noise masker. J. Acoust. Soc. Am. 1977; 62: 409–15
- Hubel D, Wiesel T. Receptive Fields, binocular interaction and functional architecture in the cat's visual cortex. J. Physiol. (London) 1962; 160: 106–54
- Jones J, Palmer L. The two-dimensional spatial structure of simple receptive fields in cat striate cortex. J. Neurophysiol. 1987; 58: 1187–211
- Julesz B, Hirsch I. Visual and auditory perception-An essay of comparison. Human Communication: a Unified View, E David, P Denes. McGraw-Hill, New York 1972; 283–340
- Kowalski N, Versnel H, Shamma S. Comparison of responses in the anterior and primary auditory fields of the ferret cortex. J. Neurophys. 1995; 73: 1513–23
- Langner G. Periodicity coding in the auditory system. Hearing Res. 1992; 6: 115–42
- Lyon R, Shamma S. Auditory representation of timbre and pitch. Audit. Computations, H Hawkins, et al. Springer, Berlin 1996; 221–70
- McLean J, Palmer L. Organization of simple cell responses in the three-dimensional frequency domain. Visual Neurosci. 1994; 11: 295–306
- Mendelson J, Schreiner C. Functional topography of cat primary auditory cortex: Distribution of integrated excitation. J. Neurophysiol. 1990; 64: 1442–59
- Moore B C J. Frequency Selectivity in Hearing. Academic, New York 1986
- Moore D, Semple M, Addison P. Some acoustic properties of neurons in the ferret inferior colliculus. Brain Res. 1983; 283: 69–82
- Oppenheim A, Schafer R. Digital Signal Processing. Prentice-Hall, Englewood Cliffs, NJ 1976
- Pfingst B E, O'Connor T A. Characteristics of neurons in auditory cortex of monkeys performing a simple auditory task. J. Neurophysiol. 1981; 45: 16–34
- Plomp R. Aspects of Tone Sensation. Academic, New York 1976
- Reale R, Imig T. Tonotopic organization of auditory cortex in the cat. J. Comput. Neurol. 1980; 192: 265–91
- Saul A, Humphrey A. Spatial and temporal response properties of lagged and nonlagged cells in cat lateral geniculate nucleus. J. Neurophys. 1990; 64: 206–24
- Shamma S A. Speech processing in the auditory system. II. Lateral inhibition and the processing of speech evoked activity in the auditory-nerve. J. Acoust. Soc. Am. 1985a; 78: 1622–32
- Shamma S A. Speech processing in the auditory system. I. Representation of speech sounds in the responses of the auditory-nerve. J. Acoust. Soc. Am. 1985b; 78: 1612–21
- Shamma S A. Common principles in auditory and visual processing. Neuroscience: From Neural Networks to Artificial Intelligence, P Rudomin, et al. Springer, Berlin 1994; 189–205
- Shamma S A. Auditory cortex. The Handbook of Brain Theory and Neural Networks, M Arbib. MIT, Cambridge, MA 1995; 110–5
- Shamma S, Versnel H. Ripple analysis in the ferret primary auditory cortex. II. Prediction of unit responses to arbitrary spectral profiles. J. Audit. Neurosci. 1995; 1: 255–70
- Shamma S, Versnel H, Kowalski N. Ripple analysis in the ferret primary auditory cortex. I. Response characteristics of single units to sinusoidally rippled spectra. J. Audit. Neurosci. 1995; 1: 233–54
- Shamma S, Vranic S, Versnel H. Representation of spectral profiles in the auditory system: theory, physiology, and psychoaccoustics. Advances in Hearing Research, G Manley, et al. World Scientific, Singapore 1995; 534–44
- Shamma S, Fleshman J, Wiser P, Versnel H. Response area organization in the ferret primary auditory cortex. J. Neurophys. 1993; 69: 367–83
- Shamma S A, Chadwick R, Wilbur J, Rinzel J, Moorish K. A biophysical model of cochlear processing: intensity dependence of pure tone responses. J. Acoust. Soc. Am. 1986
- Versnel H, Shamma S, Kowalski N. Ripple analysis in the ferret primary auditory cortex. III. Topographic and columnar distribution of ripple response parameters. J. Audit. Neurosci. 1995; 1: 271–85
- Wang K, Shamma S. Representation of spectral profiles in the primary auditory cortex. IEEE Trans. Speech and Audio Processing 1995; 3: 382–95
- Watson A, Ahumada A. Model of human visual motion sensing. J. Opt. Soc. Am. 1985; A2: 322–42
- Yost W A, Hill R, Perez-Falcon T. Pitch and pitch discrimination in broadband signals with rippled power spectra. J. Acoust. Soc. Am. 1978; 63: 1166–73