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Main Authors: Felsheim, Rebecca C., Hochmuth, Sabine, Kleinow, Alina, Radeloff, Andreas, Dietz, Mathias
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.02555
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author Felsheim, Rebecca C.
Hochmuth, Sabine
Kleinow, Alina
Radeloff, Andreas
Dietz, Mathias
author_facet Felsheim, Rebecca C.
Hochmuth, Sabine
Kleinow, Alina
Radeloff, Andreas
Dietz, Mathias
contents Bimodal cochlear implant users show poor localization performance. One reason for this is a difference in the processing latency between the hearing aid and the cochlear implant side. It has been shown that reducing this latency difference acutely improves the localization performance of bimodal cochlear implant users. However, due to the frequency dependency of both the device latencies and the acoustic hearing ear, current frequency-independent latency adjustments cannot fully compensate for the differences, leaving open which latency adjustment is best. We therefore measured the localization performance of eleven bimodal cochlear implant users for multiple cochlear implant latencies. We confirm previous studies that adjusting the interaural latency improves localization in all eleven bimodal cochlear implant users. However, the latency that leads to the best localization performance for most subjects was not at the latency calculated to compensate for the interaural difference at intermediate frequencies (1 kHz). Nine of eleven subjects localized best with a cochlear implant latency that was slightly shorter than the calculated latency compensation.
format Preprint
id arxiv_https___arxiv_org_abs_2505_02555
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Bimodal Cochlear Implants: Measurement of the Localization Performance as a Function of Device Latency Difference
Felsheim, Rebecca C.
Hochmuth, Sabine
Kleinow, Alina
Radeloff, Andreas
Dietz, Mathias
Medical Physics
Bimodal cochlear implant users show poor localization performance. One reason for this is a difference in the processing latency between the hearing aid and the cochlear implant side. It has been shown that reducing this latency difference acutely improves the localization performance of bimodal cochlear implant users. However, due to the frequency dependency of both the device latencies and the acoustic hearing ear, current frequency-independent latency adjustments cannot fully compensate for the differences, leaving open which latency adjustment is best. We therefore measured the localization performance of eleven bimodal cochlear implant users for multiple cochlear implant latencies. We confirm previous studies that adjusting the interaural latency improves localization in all eleven bimodal cochlear implant users. However, the latency that leads to the best localization performance for most subjects was not at the latency calculated to compensate for the interaural difference at intermediate frequencies (1 kHz). Nine of eleven subjects localized best with a cochlear implant latency that was slightly shorter than the calculated latency compensation.
title Bimodal Cochlear Implants: Measurement of the Localization Performance as a Function of Device Latency Difference
topic Medical Physics
url https://arxiv.org/abs/2505.02555