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The effects of low- and high-frequency suppressors on psychophysical estimates of basilar-membrane compression and gain.

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The effects of low- and high-frequency suppressors on psychophysical estimates of basilar-membrane compression and gain. / Yasin, Ifat; Plack, Christopher J.
In: Journal of the Acoustical Society of America, Vol. 121, No. 5, 05.2007, p. 2832-2841.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Yasin, I & Plack, CJ 2007, 'The effects of low- and high-frequency suppressors on psychophysical estimates of basilar-membrane compression and gain.', Journal of the Acoustical Society of America, vol. 121, no. 5, pp. 2832-2841. https://doi.org/10.1121/1.2713675

APA

Yasin, I., & Plack, C. J. (2007). The effects of low- and high-frequency suppressors on psychophysical estimates of basilar-membrane compression and gain. Journal of the Acoustical Society of America, 121(5), 2832-2841. https://doi.org/10.1121/1.2713675

Vancouver

Yasin I, Plack CJ. The effects of low- and high-frequency suppressors on psychophysical estimates of basilar-membrane compression and gain. Journal of the Acoustical Society of America. 2007 May;121(5):2832-2841. doi: 10.1121/1.2713675

Author

Yasin, Ifat ; Plack, Christopher J. / The effects of low- and high-frequency suppressors on psychophysical estimates of basilar-membrane compression and gain. In: Journal of the Acoustical Society of America. 2007 ; Vol. 121, No. 5. pp. 2832-2841.

Bibtex

@article{7710eb49641a4f7f9b29a4d22b6e5985,
title = "The effects of low- and high-frequency suppressors on psychophysical estimates of basilar-membrane compression and gain.",
abstract = "Physiological studies suggest that the increase in suppression as a function of suppressor level is greater for a suppressor below than above the signal frequency. This study investigated the pattern of gain reduction underlying this increase in suppression. Temporal masking curves (TMCs) were obtained by measuring the level of a 2.2-kHz sinusoidal off-frequency masker or 4-kHz on-frequency sinusoidal masker required to mask a brief 4-kHz sinusoidal signal at 10 dB SL, for masker-signal intervals of 20–100 ms. TMCs were also obtained in the presence of a 3- or 4.75-kHz sinusoidal suppressor gated with the 4-kHz masker, for suppressor levels of 40–70 dB SPL. The decrease in gain (increase in suppression) as a function of suppressor level was greater with a 3-kHz suppressor than with a 4.75-kHz suppressor, in line with previous findings. Basilar membrane input-output (I/O) functions derived from the TMCs showed a shift to higher input (4-kHz masker) levels of the low-level (linear) portion of the I/O function with the addition of a suppressor, with partial linearization of the function, but no reduction in maximum compression.",
author = "Ifat Yasin and Plack, {Christopher J.}",
year = "2007",
month = may,
doi = "10.1121/1.2713675",
language = "English",
volume = "121",
pages = "2832--2841",
journal = "Journal of the Acoustical Society of America",
issn = "1520-8524",
publisher = "Acoustical Society of America",
number = "5",

}

RIS

TY - JOUR

T1 - The effects of low- and high-frequency suppressors on psychophysical estimates of basilar-membrane compression and gain.

AU - Yasin, Ifat

AU - Plack, Christopher J.

PY - 2007/5

Y1 - 2007/5

N2 - Physiological studies suggest that the increase in suppression as a function of suppressor level is greater for a suppressor below than above the signal frequency. This study investigated the pattern of gain reduction underlying this increase in suppression. Temporal masking curves (TMCs) were obtained by measuring the level of a 2.2-kHz sinusoidal off-frequency masker or 4-kHz on-frequency sinusoidal masker required to mask a brief 4-kHz sinusoidal signal at 10 dB SL, for masker-signal intervals of 20–100 ms. TMCs were also obtained in the presence of a 3- or 4.75-kHz sinusoidal suppressor gated with the 4-kHz masker, for suppressor levels of 40–70 dB SPL. The decrease in gain (increase in suppression) as a function of suppressor level was greater with a 3-kHz suppressor than with a 4.75-kHz suppressor, in line with previous findings. Basilar membrane input-output (I/O) functions derived from the TMCs showed a shift to higher input (4-kHz masker) levels of the low-level (linear) portion of the I/O function with the addition of a suppressor, with partial linearization of the function, but no reduction in maximum compression.

AB - Physiological studies suggest that the increase in suppression as a function of suppressor level is greater for a suppressor below than above the signal frequency. This study investigated the pattern of gain reduction underlying this increase in suppression. Temporal masking curves (TMCs) were obtained by measuring the level of a 2.2-kHz sinusoidal off-frequency masker or 4-kHz on-frequency sinusoidal masker required to mask a brief 4-kHz sinusoidal signal at 10 dB SL, for masker-signal intervals of 20–100 ms. TMCs were also obtained in the presence of a 3- or 4.75-kHz sinusoidal suppressor gated with the 4-kHz masker, for suppressor levels of 40–70 dB SPL. The decrease in gain (increase in suppression) as a function of suppressor level was greater with a 3-kHz suppressor than with a 4.75-kHz suppressor, in line with previous findings. Basilar membrane input-output (I/O) functions derived from the TMCs showed a shift to higher input (4-kHz masker) levels of the low-level (linear) portion of the I/O function with the addition of a suppressor, with partial linearization of the function, but no reduction in maximum compression.

U2 - 10.1121/1.2713675

DO - 10.1121/1.2713675

M3 - Journal article

VL - 121

SP - 2832

EP - 2841

JO - Journal of the Acoustical Society of America

JF - Journal of the Acoustical Society of America

SN - 1520-8524

IS - 5

ER -