Spectral-Ripple Resolution Correlates with Speech Reception in Noise in Cochlear Implant Users

Won, Jong Ho; Drennan, Ward R.; Rubinstein, Jay T.

doi:10.1007/s10162-007-0085-8

Cited by 239 publications

(366 citation statements)

References 25 publications

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“…Stimuli with a ripple density of 1.414 ripples/octave and a ripple depth of 30 dB were used for this analysis. This ripple density was chosen because it was similar to the average spectral-ripple discrimination thresholds for the no-dead region condition in the current study as well as to the average performance reported for 31 CI subjects by an earlier report (Won et al 2007). The top panels show the electrode outputs for the redistributed conditions, whereas the bottom panels show the electrode outputs for the dropped conditions.…”

Section: Discussionmentioning

confidence: 79%

“…When there was no dead region, CI subjects showed an average threshold of 1.80 ripples/octave, which is similar to an earlier report using the same spectralripple test. Using 31 CI subjects, Won et al (2007) reported an average threshold of 1.73 ripples/octave. When NH subjects were tested with a 16-channel vocoder with no-dead region, they showed worse performance than CI subjects.…”

Section: Resultsmentioning

confidence: 99%

“…Spectral-ripple discrimination thresholds were collected using established techniques (Won et al 2007). Briefly, three rippled noise tokens with a 30-dB peakto-trough ratio, two with standard ripple phase and one with inverted ripple phase, were selected for each trial.…”

Section: Testing Proceduresmentioning

confidence: 99%

“…Three different non-speech psychoacoustic experiments were also performed. Spectral-ripple discrimination was evaluated to assess listeners' sensitivity to spectral envelope cues (Won et al 2007(Won et al , 2014Jones et al 2013). Temporal modulation detection was used to evaluate listeners' sensitivity to temporal envelope cues.…”

Section: Introductionmentioning

confidence: 99%

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Spectral and Temporal Analysis of Simulated Dead Regions in Cochlear Implants

Won

Jones

Moon

et al. 2015

JARO

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A cochlear implant (CI) electrode in a Bcochlear dead region^will excite neighboring neural populations. In previous research that simulated such dead regions, stimulus information in the simulated dead region was either added to the immediately adjacent frequency regions or dropped entirely. There was little difference in speech perception ability between the two conditions. This may imply that there may be little benefit of ensuring that stimulus information on an electrode in a suspected cochlear dead region is transmitted. Alternatively, performance may be enhanced by a broader frequency redistribution, rather than adding stimuli from the dead region to the edges. In the current experiments, cochlear dead regions were introduced by excluding selected CI electrodes or vocoder noise-bands. Participants were assessed for speech understanding as well as spectral and temporal sensitivities as a function of the size of simulated dead regions. In one set of tests, the normal input frequency range of the sound processor was distributed among the active electrodes in bands with approximately logarithmic spacing (Bredistributedm aps); in the remaining tests, information in simulated dead regions was dropped (Bdropped^maps). Word recognition and Schroeder-phase discrimination performance, which require both spectral and temporal sensitivities, decreased as the size of simulated dead regions increased, but the redistributed and dropped remappings showed similar performance in these two tasks. Psychoacoustic experiments showed that the near match in word scores may reflect a tradeoff between spectral and temporal sensitivity: spectral-ripple discrimination was substantially degraded in the redistributed condition relative to the dropped condition while performance in a temporal modulation detection task degraded in the dropped condition but remained constant in the redistributed condition.

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Section: Discussionmentioning

confidence: 79%

Section: Resultsmentioning

confidence: 99%

Section: Testing Proceduresmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Spectral and Temporal Analysis of Simulated Dead Regions in Cochlear Implants

Won

Jones

Moon

et al. 2015

JARO

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“…From the signal processing stand point, it is generally accepted that two main factors contribute to reduced speech identification in noise for CI users: (1) limited spectral resolution including the negative effect of channel interaction (e.g., Fu et al 1998;Friesen et al 2001;Fu and Nogaki 2005;Won et al 2007; Verschuur 2009), and (2) inability to deliver FM information through current CI speech processors (e.g., Smith et al 2002;Qin and Oxenham 2003;Stickney et al 2005;Zeng et al 2005;Gnansia et al 2010). The latter point should be stated more precisely because speech FM information can be transmitted in the form of recovered AM cues through the CI speech processor and CI users are able to exploit the recovered AM cues for speech identification (Won et al 2012).…”

Section: Discussionmentioning

confidence: 99%

Use of Amplitude Modulation Cues Recovered from Frequency Modulation for Cochlear Implant Users When Original Speech Cues Are Severely Degraded

Won

Shim

Lorenzi³

et al. 2014

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Won et al. (J Acoust Soc Am 132:1113-1119, 2012 reported that cochlear implant (CI) speech processors generate amplitude-modulation (AM) cues recovered from broadband speech frequency modulation (FM) and that CI users can use these cues for speech identification in quiet. The present study was designed to extend this finding for a wide range of listening conditions, where the original speech cues were severely degraded by manipulating either the acoustic signals or the speech processor. The manipulation of the acoustic signals included the presentation of background noise, simulation of reverberation, and amplitude compression. The manipulation of the speech processor included changing the input dynamic range and the number of channels. For each of these conditions, multiple levels of speech degradation were tested. Speech identification was measured for CI users and compared for stimuli having both AM and FM information (intact condition) or FM information only (FM condition). Each manipulation degraded speech identification performance for both intact and FM conditions. Performance for the intact and FM conditions became similar for stimuli having the most severe degradations. Identification performance generally overlapped for the intact and FM conditions. Moreover, identification performance for the FM condition was better than chance performance even at the maximum level of distortion. Finally, significant correlations were found between speech identification scores for the intact and FM conditions. Altogether, these results suggest that despite poor frequency selectivity, CI users can make efficient use of AM cues recovered from speech FM in difficult listening situations.

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How does aging affect recognition of spectrally degraded speech?

et al. 2018

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Objectives/Hypothesis: Cochlear implants (CIs) restore auditory sensation to patients with moderate-to-profound sensorineural hearing loss. However, the benefits to speech recognition vary considerably among patients. Advancing age contributes to this variability in postlingual adult CI users. Similarly, older individuals with normal hearing (NH) perform more poorly on tasks of recognition of spectrally degraded speech. The overarching hypothesis of this study was that the detrimental effects of advancing age on speech recognition can be attributed both to declines in auditory spectral resolution as well as declines in cognitive functions. Study Design: Case-control study. Methods: Speech recognition was assessed in CI users (in the clear) and NH controls (spectrally degraded using noise-vocoding), along with auditory spectral resolution using the Spectral–Temporally Modulated Ripple Test. Cognitive skills were assessed using nonauditory visual measures of working memory, inhibitory control, speed of lexical/phonological access, nonverbal reasoning, and perceptual closure. Linear regression models were tested for mediation to explain aging effects on speech recognition performance. Results: For both groups, older age predicted poorer sentence and word recognition. The detrimental effects of advancing age on speech recognition were partially mediated by declines in spectral resolution and in some measures of cognitive function. Conclusions: Advancing age contributes to poorer recognition of degraded speech for CI users and NH controls through declines in both auditory spectral resolution and cognitive functions. Findings suggest that improvements in spectral resolution as well as cognitive improvements may serve as therapeutic targets to optimize CI speech recognition outcomes.

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Spectral-Ripple Resolution Correlates with Speech Reception in Noise in Cochlear Implant Users

Cited by 239 publications

References 25 publications

Spectral and Temporal Analysis of Simulated Dead Regions in Cochlear Implants

Spectral and Temporal Analysis of Simulated Dead Regions in Cochlear Implants

Use of Amplitude Modulation Cues Recovered from Frequency Modulation for Cochlear Implant Users When Original Speech Cues Are Severely Degraded

How does aging affect recognition of spectrally degraded speech?

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