Further simulations of the effect of cochlear-implant pre-processing and head movement on interaural level differences

We simulated the effect of several automatic gain control (AGC) and AGC-like systems and head movement on the output levels, and resulting interaural level differences (ILDs) produced by bilateral cochlear-implant (CI) processors. The simulated AGC systems included unlinked AGCs with a range of para...

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Veröffentlicht in:	The Journal of the Acoustical Society of America 2021-07, Vol.150 (1), p.506-525
Hauptverfasser:	Archer-Boyd, Alan W., Carlyon, Robert P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Auditory Perception Cochlear Implantation Cochlear Implants Head Movements Sound Localization Speech Perception
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container_title	The Journal of the Acoustical Society of America
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creator	Archer-Boyd, Alan W. Carlyon, Robert P.
description	We simulated the effect of several automatic gain control (AGC) and AGC-like systems and head movement on the output levels, and resulting interaural level differences (ILDs) produced by bilateral cochlear-implant (CI) processors. The simulated AGC systems included unlinked AGCs with a range of parameter settings, linked AGCs, and two proprietary multi-channel systems used in contemporary CIs. The results show that over the range of values used clinically, the parameters that most strongly affect dynamic ILDs are the release time and compression ratio. Linking AGCs preserves ILDs at the expense of monaural level changes and, possibly, comfortable listening level. Multichannel AGCs can whiten output spectra, and/or distort the dynamic changes in ILD that occur during and after head movement. We propose that an unlinked compressor with a ratio of approximately 3:1 and a release time of 300–500 ms can preserve the shape of dynamic ILDs, without causing large spectral distortions or sacrificing listening comfort.
doi_str_mv	10.1121/10.0005647
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subjects	Auditory Perception Cochlear Implantation Cochlear Implants Head Movements Sound Localization Speech Perception
title	Further simulations of the effect of cochlear-implant pre-processing and head movement on interaural level differences
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