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[1.] Arle J. E. & Kim D. O. (1991): "Neural Modeling of Intrinsic and Spike-Discharge Properties of Cochlear Nucleus Neurons", Biological Cybernetics [64], 273-283.

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[14.] Palmer A. R. & Russel I. J. (1986): "Phase-Locking in the Cochlear Nerve of the Guinea-Pig, and ist Relation to the Receptor Potential of Inner Hair-Cells", Hearing Research [24], 1-15.

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[16.] Rhode W. S. & Cooper N. P. (1993): "Two-Tone Suppression and Distortion on the Basilar Membrane in the Hook Region of Cat and Guinea Pig Cochleae", Hearing Research [66] 31-45. [17.] Rothman J. S., Young E. D. and Manis P. B. (1993): "Convergence of Auditory Nerve Fibers Onto Bushy Cells in the Ventral Cochlear Nucleus: Implications of a Computational Model", J. of Neurophysiology [70], 2562-2583.

[18.] Shamma, S. A. Chadwick R. S. Wilbur W. J. Morrish K. A. and Rinzel J.(1986) "A biophysical model oc cochlear processing: Intensity dependence of pure tone responses", J. Acoust. Soc. Am. [80], pp 133-145.

[19.] Yost W. A. Patterson R. & Sheft S. (1996): "A time domain description for the pitch strength of iterated rippled noise", J. Acoust. Soc. Am. [999].

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