Robustness against distortion of fundamental frequency cues in simulated electro-acoustic hearing
Robustness against distortion of fundamental frequency cues in simulated electro-acoustic hearing
Speech recognition by cochlear implant users can be improved by adding an audible low frequency acoustic signal to electrical hearing; the resulting improvement is deemed “electro-acoustic stimulation (EAS) benefit.” However, a crucial low frequency cue, fundamental frequency (F0), can be distorted via the impaired auditory system. In order to understand how F0 distortions may affect EAS benefit, normal-hearing listeners were presented monaurally with vocoded speech (frequencies >250 Hz) and an acoustical signal (frequencies <250 Hz) with differing manipulations of the F0 signal, specifically: a pure tone with the correct mean F0 but with smaller variations around this mean, or a narrowband of white noise centered around F0, at varying bandwidths; a pure tone down-shifted in frequency by 50 Hz but keeping overall frequency modulations. Speech-recognition thresholds improved when tones with reduced frequency modulation were presented, and improved significantly for noise bands maintaining F0 information. A down-shifted tone, or only a tone to indicate voicing, showed no EAS benefit. These results confirm that the presence of the target's F0 is beneficial for EAS hearing in a noisy environment, and they indicate that the benefit is robust to F0 distortion, as long as the mean F0 and frequency modulations of F0 are preserved.
229-238
Vermeulen, Arthur
02c1c244-8aa6-433a-989d-7a89f0d71d45
Verschuur, Carl
5e15ee1c-3a44-4dbe-ad43-ec3b50111e41
July 2016
Vermeulen, Arthur
02c1c244-8aa6-433a-989d-7a89f0d71d45
Verschuur, Carl
5e15ee1c-3a44-4dbe-ad43-ec3b50111e41
Vermeulen, Arthur and Verschuur, Carl
(2016)
Robustness against distortion of fundamental frequency cues in simulated electro-acoustic hearing.
Journal of the Acoustical Society of America, 140 (1), .
(doi:10.1121/1.4954752).
Abstract
Speech recognition by cochlear implant users can be improved by adding an audible low frequency acoustic signal to electrical hearing; the resulting improvement is deemed “electro-acoustic stimulation (EAS) benefit.” However, a crucial low frequency cue, fundamental frequency (F0), can be distorted via the impaired auditory system. In order to understand how F0 distortions may affect EAS benefit, normal-hearing listeners were presented monaurally with vocoded speech (frequencies >250 Hz) and an acoustical signal (frequencies <250 Hz) with differing manipulations of the F0 signal, specifically: a pure tone with the correct mean F0 but with smaller variations around this mean, or a narrowband of white noise centered around F0, at varying bandwidths; a pure tone down-shifted in frequency by 50 Hz but keeping overall frequency modulations. Speech-recognition thresholds improved when tones with reduced frequency modulation were presented, and improved significantly for noise bands maintaining F0 information. A down-shifted tone, or only a tone to indicate voicing, showed no EAS benefit. These results confirm that the presence of the target's F0 is beneficial for EAS hearing in a noisy environment, and they indicate that the benefit is robust to F0 distortion, as long as the mean F0 and frequency modulations of F0 are preserved.
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More information
Accepted/In Press date: 8 June 2016
e-pub ahead of print date: 13 July 2016
Published date: July 2016
Organisations:
Auditory Implant Service
Identifiers
Local EPrints ID: 406409
URI: http://eprints.soton.ac.uk/id/eprint/406409
ISSN: 0001-4966
PURE UUID: 9675538d-4fc5-46e8-a8df-9f36a0f2f479
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Date deposited: 10 Mar 2017 10:46
Last modified: 15 Mar 2024 12:17
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Author:
Arthur Vermeulen
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