Speech recognition of hearing-impaired listeners: Predictions from audibility and the limited role of high-frequency amplification,” J. Stop-consonant recognition for normal-hearing listeners and listeners with high-frequency hearing loss. Consequently, whereas the effects of audibility of frequency regions below 8 kHz for speech have been studied extensively ( Dubno et al., 1989 4. C.,Įxtended high-frequency bandwidth improves speech reception in the presence of spatially separated masking speech,” Ear Hear. The effects of limited bandwidth and noise on verbal processing time and word recall in normal-hearing children,” Ear Hear. W., andĪudibility-based predictions of speech recognition for children and adults with normal hearing,” J. J.,Įffect of spatial separation, extended bandwidth, and compression speed on intelligibility in a competing-speech task,” J. Preliminary evaluation of a method for fitting hearing aids with extended bandwidth,” Int. High-frequency amplification and sound quality in listeners with normal through moderate hearing loss,” J. Short-term word-learning rate in children with normal hearing and children with hearing loss in limited and extended high-frequency bandwidths,” J. G.,Įffect of stimulus bandwidth on auditory skills in normal-hearing and hearing-impaired children,” Ear Hear.
G.,Įffect of stimulus bandwidth on the perception of/s/in normal- and hearing-impaired children and adults,” J. It is widely believed that extended high frequencies (EHF) (frequencies ≥8 kHz) have little role for speech perception, being beyond the traditional “speech bandwidth.” This view may be due, in part, to the mixed findings from studies that have examined whether there are benefits with audibility of high-frequency bands, some of which have included energy at EHFs ( Stelmachowicz et al., 2001 33. For humans, the frequency range of hearing extends to approximately 20 kHz.
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