Coherent coding of enhanced interaural cues improves sound localization in noise with bilateral cochlear implants
Bilateral cochlear implant (BCI) users only have very limited spatial hearing abilities. Speech
coding strategies transmit interaural level differences (ILDs) but in a distorted manner …
coding strategies transmit interaural level differences (ILDs) but in a distorted manner …
Auditory room learning and adaptation to sound reflections
BU Seeber, S Clapp - The Technology of Binaural Understanding, 2020 - Springer
Sound reflections are abundant in everyday listening spaces, but they are rarely
bothersome, and people are often not even aware of their presence. As shown in several …
bothersome, and people are often not even aware of their presence. As shown in several …
[HTML][HTML] Reweighting of binaural localization cues in bilateral cochlear-implant listeners
Normal-hearing (NH) listeners rely on two binaural cues, the interaural time (ITD) and level
difference (ILD), for azimuthal sound localization. Cochlear-implant (CI) listeners, however …
difference (ILD), for azimuthal sound localization. Cochlear-implant (CI) listeners, however …
The impact of synchronized cochlear implant sampling and stimulation on free-field spatial hearing outcomes: Comparing the ciPDA research processor to clinical …
Objectives: Bilateral cochlear implant (BiCI) listeners use independent processors in each
ear. This independence and lack of shared hardware prevents control of the timing of …
ear. This independence and lack of shared hardware prevents control of the timing of …
The history and future of neural modeling for cochlear implants
This special issue of Network: Computation in Neural Systems on the topic of
“Computational models of the electrically stimulated auditory system” incorporates review …
“Computational models of the electrically stimulated auditory system” incorporates review …
Lateralization of binaural envelope cues measured with a mobile cochlear-implant research processor
SR Dennison, T Thakkar, A Kan… - The Journal of the …, 2023 - pubs.aip.org
Bilateral cochlear implant (BICI) listeners do not have full access to the binaural cues that
normal hearing (NH) listeners use for spatial hearing tasks such as localization. When using …
normal hearing (NH) listeners use for spatial hearing tasks such as localization. When using …
Improving interaural time difference sensitivity using short inter-pulse intervals with amplitude-modulated pulse trains in bilateral cochlear implants
Interaural time differences (ITDs) at low frequencies are important for sound localization and
spatial speech unmasking. These ITD cues are not encoded in commonly used envelope …
spatial speech unmasking. These ITD cues are not encoded in commonly used envelope …
Influence of envelope waveform on ITD sensitivity of neurons in the auditory midbrain
Interaural time differences (ITDs) conveyed by the modulated envelopes of high-frequency
sounds can serve as a cue for localizing a sound source. Klein-Hennig et al.(J Acoust Soc …
sounds can serve as a cue for localizing a sound source. Klein-Hennig et al.(J Acoust Soc …
Temporal-pitch sensitivity in electric hearing with amplitude modulation and inserted pulses with short inter-pulse intervals
Listeners with cochlear implants (CIs) typically show poor sensitivity to the temporal-
envelope pitch of high-rate pulse trains. Sensitivity to interaural time differences improves …
envelope pitch of high-rate pulse trains. Sensitivity to interaural time differences improves …
[HTML][HTML] Modulation depth discrimination by cochlear implant users
JJM Monaghan, RP Carlyon, JM Deeks - Journal of the Association for …, 2022 - Springer
Cochlear implants (CIs) convey the amplitude envelope of speech by modulating high-rate
pulse trains. However, not all of the envelope may be necessary to perceive amplitude …
pulse trains. However, not all of the envelope may be necessary to perceive amplitude …