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Extra info for Auditory signal processing : physiology, psychoacoustics, and models
Phase relative to 80 dB SPL. (A) Animal data (L113 from Ruggero et al. 1997). (B) Model response. 14000 Fre que ncy (Hz) Figure 2 reproduces the phase data of Fig. 1 but relative to 80 dB SPL. Therefore, the contribution of the stapes to the BM phase, which is linear, is cancelled out in this representation. The model reproduces the systematic phase lead with level for frequencies lower than CF. It also reproduces the phase lag observed at high levels (≥ 90 dB) across frequencies. However, the model does not reproduce the phase lag at low levels for frequencies higher than CF.
Christensen-Dalsgaard, T. Andersen and T. ) Genetics and the Function of the Auditory System, GN ReSound, Tåstrup, Denmark, pp. 411-426. , Buus, S. and Poulsen, T. (1996) Temporal integration of loudness as a function of level. J. Acoust. Soc. Am. 99, 1633-1644. B. D. (2003) Activity growth rates in auditory-nerve fibers following noise-induced hearing loss. Abs. 26th Ann. Midwinter Res. Mtng. Assoc. Res. Otolaryngol. 46-47. P. H. (1990) Loudness relations for individuals and groups in normal and impaired hearing.
Auditory Signal Processing: Physiology, Psychoacoustics, and Models. ,and Collet, L. (Eds). Springer Verlag, 2004. Reaction-time data support the existence of Softness Imperception in cochlear hearing loss Mary Florentine1,2, Søren Buus1,3, and Mindy Rosenberg1,2 1 2 3 Institute for Hearing, Speech, and Language SLPA Dept. edu ECE Dept. edu 1 Introduction The purpose of this paper is to test the hypothesis that listeners with hearing losses of primarily cochlear origin have Softness Imperception, SI.