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Warianty tytułu
Języki publikacji
Abstrakty
This paper is concerned with the determination of the auditory filter shape using the notched noise method with noise bands symmetrically located above and below a probe frequency of 10 kHz. Unlike in the classical experiments conducted with the use of Patterson method the levels as well as power spectrum densities of the lower and upper component bands of the notched noise masker were not the same and were set such as to produce the same amount of masking at the 10-kHz frequency. The experiment consisted of three conditions in which the following values were determined: (I) the detection threshold for a 10-kHz probe tone in the presence of a noise masker presented below the tone’s frequency; (II) the level of a noise masker presented above the 10-kHz probe tone frequency, at which the masker just masked the probe tone, (III) the detection threshold for a probe tone in the presence of a notched-noise masker. The data show a considerable amount of variability across the subjects, however, the resulting frequency characteristics of the auditory filters are consistent with those presented in the literature so that the Equivalent Rectangular Bandwidth is less than 11% of their centre frequency.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
329--336
Opis fizyczny
Bibliogr. 22 poz., rys., tab., wykr.
Twórcy
autor
- Department of Biophysics, Poznan University of Medical Science, Fredry 10, 61-601 Poznan, Poland
autor
- Institute of Acoustics, Faculty of Physics, Adam Mickiewicz University, Umultowska 85, 61-614 Poznan, Poland
Bibliografia
- 1. Aibara R., Welsh J.T., Puria S., Goode R.L. (2001), Human middle-ear sound transfer function and cochlear input impedance, Hearing Research, 152, 1–2, 100–109.
- 2. Chittka L., Brockmann A. (2009), A diagram of the anatomy of the human ear Wikimedia Commons.
- 3. Egan J.P., Hake H.W. (1950), On the masking pattern of simple auditory stimulus, J. Acoust. Soc. Am., 22, 622–630.
- 4. Glasberg B.R., Moore B.C.J. (1990), Deviation of auditory filter shapes from notched-noise data, Hear. Res., 47, 103–138.
- 5. Jurado C., Moore B.C.J. (2010), Frequency selectivity for frequencies below 100 Hz: Comparisons with mid-frequencies, J. Acoust. Soc. Am., 128, 6, 3585–3596.
- 6. Levitt H. (1971), Transformed up-down methods in psychoacoustics, J. Acoust. Soc. Am., 49 (Suppl 2), 467–477.
- 7. Moore B.C.J., Peters R.W., Glasberg B.R. (1990), Auditory filter shapes at low center frequencies, J. Acoust. Soc. Am., 88, 132–140.
- 8. Moore B.C.J. (2012), An Introduction to the Psychology of Hearing, Sixth Edition/Brill.
- 9. Moore B.C.J. (1995), Hearing San Diego, Academic Press.
- 10. Moore B.C.J., Glasberg B.R. (1983a), Growth of forward masking for sinusoidal and noise maskers as a function of signal delay: implications for suppression in noise, J. Acoust. Soc. Am., 73, 1249–1259.
- 11. Moore B.C.J., Glasberg B.R. (1983b), Suggested formulae for calculating auditory-filter bandwidth and excitation patterns, J. Acoust. Soc. Am., 74, 750–753.
- 12. Ozimek E., Kutzner D., Sek A., Wicher A. (2007), The Polish digit triplet test for auditory screening: development and initial evaluation, Archives of Acoustics, 31, 4, 179–185.
- 13. Patterson R.D., Moore B.C.J. (1986), Auditory filters and excitation patterns as representations of frequency resolution Frequency Selectivity in Hearing, B.C.J. Moore [Ed.] Academic, London.
- 14. Rosen S., Stock D. (1992), Auditory filter bandwidth as a function at low frequencies (125 Hz–1 kHz), J. Acoust. Soc. Am., 92, 773–781.
- 15. Schorer E. (1986), Critical modulation frequency based on detection of AM versus FM tones, J. Acoust. Soc. Am., 79, 1054–1057.
- 16. Sek A. (1994), Modulation thresholds and critical modulation frequency based on random amplitude and frequency changes, Journal of the Acoustical Society of Japan (E), 15, 67–75.
- 17. Sek A., Moore B.C.J. (1994), The critical modulation frequency and its relationship to auditory filtering at low frequencies, J. Acoust. Soc. Am., 95, 2606–2615.
- 18. Sek A.P. (2000), Auditory filtering at low frequencies, Archives of Acoustics, 25, 3, 291–316.
- 19. Shailer M.J., Moore B.C., Glasberg B.R., Watson N., Harris S. (1990), Auditory filter shapes at 8 and 10 kHz, J. Acoust. Soc. Am., 88, 141–148.
- 20. Yasin I., Plack C.J. (2005), Psychophysical tuning curves at very high frequencies, J. Acoust. Soc. Am., 118, 4, 2498–2506.
- 21. Zhou B. (1995), Auditory filter shapes at high frequencies, J. Acoust. Soc. Am., 98, 1935–1942.
- 22. Zwicker E. (1970), Masking and psychological excitation as consequences of the ear’s frequency analysis, Frequency Analysis and Periodicity Detection in Hearing, R. Plomp, G.F. Smoorenburg [Eds.], Sijthoff, Leiden.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-40b39243-3563-4db2-a229-fa4ea1bb24b3