Sentence recognition in noise promoting or suppressing masking release by normal-hearing and cochlear-implant listeners

Kwon, Bomjun; Perry, Trevor T.; Wilhelm, Cassie; Healy, Eric W.

doi:10.1121/1.3688511

Cited by 21 publications

(39 citation statements)

References 34 publications

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“…One of the common findings from the studies of CI users is individual variability in their speech recognition scores regardless of speech materials or noise conditions (e.g., Fu & Galvin, 2008;Gifford, Shallop, & Peterson, 2008;Kwon et al, 2012), which was also found in the current study. Table 6 shows the performance of individual CI listeners in several conditions: quiet with full-spectrum speech and low-pass filtered speech, remote noise for the three AM conditions, and embedded noise for the same AM conditions.…”

Section: Clinical Implications For CI Listenerssupporting

confidence: 67%

“…Previous studies have reported that NH listeners' speech recognition scores could improve by as much as 80 percentage points when noise was modulated versus steady (Jin & Nelson, 2006). However, significant masking release reduction or no masking release has been found in cochlear implant (CI) users or in NH listeners identifying vocoded speech that simulates speech processed by a CI device (NH-Sim; Fu & Nogaki, 2004;Kwon, Perry, Wilhelm, & Healy 2012;Nelson & Jin, 2004;Nelson, Jin, Carney, & Nelson, 2003;Qin & Oxenham, 2003;Stickney, Zeng, Litovsky, & Assmann, 2004). For example, Nelson and colleagues (Nelson & Jin, 2004;Nelson et al, 2003) compared the performance of three listener groups (NH, CI, and NH-Sim) for sentence recognition in the presence of different masking noises, including steady-state noise and gated noise modulated at different frequencies.…”

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confidence: 99%

“…In studies of spatial masking, when speech and noise were presented from different locations, NH listeners as well as CI and NH-Sim listeners showed spatial release from masking (Ihlefeld et al 2010;Loizou et al, 2009). Furthermore, Kwon et al (2012) showed that when the envelopes of modulated noise were less temporally overlapped with those of speech signals, ,50% of CI participants were able to benefit from the dips of modulated noise, resulting in significant masking release. These results suggest that if speech and noise are perceptually segregated, CI listeners would be able to experience masking release.…”

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confidence: 99%

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Masking Release and Modulation Interference in Cochlear Implant and Simulation Listeners

Jin

Nie

2013

Am J Audiol

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Purpose: To examine the effects of temporal and spectral interference of masking noise on sentence recognition for listeners with cochlear implants (CI) and normal-hearing persons listening to vocoded signals that simulate signals processed through a CI (NH-Sim). Method: NH-Sim and CI listeners participated in the experiments using speech and noise that were processed by bandpass filters. Depending on the experimental condition, the spectra of the maskers relative to that of speech were set to be completely embedded with, partially overlapping, or completely separate from, the speech. The maskers were either steady or amplitude modulated and were presented at +10 dB signal-to-noise ratio. Results: NH-Sim listeners experienced progressively more masking as the masker became more spectrally overlapping with speech, whereas CI listeners experienced masking even when the masker was spectrally remote from the speech signal. Both the NH-Sim and CI listeners experienced significant modulation interference when noise was modulated at a syllabic rate (4 Hz), suggesting that listeners may experience both modulation interference and masking release. Thus, modulated noise has mixed and counteracting effects on speech perception. Conclusion: When the NH-Sim and CI listeners with poor spectral resolution were tested using syllabic-like rates of modulated noise, they tended to integrate or confuse the noise with the speech, causing an increase in speech errors. Optional training programs might be useful for CI listeners who show more difficulty understanding speech in noise.Key Words: cochlear implants, hearing loss, speech perception T ypical environmental noises such as background conversations are temporally varying in frequency and amplitude. Listeners with normal hearing (NH) can take advantage of gaps in these fluctuating maskers. They are able to ''listen in the dips'' of temporally varying noise to extract information about the speech signal, thereby experiencing improvement in speech recognition (e.g., Bernstein & Grant, 2009;Festen & Plomp, 1990;Jin & Nelson, 2006). Such performance improvement in the presence of fluctuating compared to steady-state noise conditions is known as masking release. Previous studies have reported that NH listeners' speech recognition scores could improve by as much as 80 percentage points when noise was modulated versus steady (Jin & Nelson, 2006). However, significant masking release reduction or no masking release has been found in cochlear implant (CI) users or in NH listeners identifying vocoded speech that simulates speech processed by a CI device (NH-Sim; Fu & Nogaki, 2004;Kwon, Perry, Wilhelm, & Healy 2012;Nelson & Jin, 2004;Nelson, Jin, Carney, & Nelson, 2003;Qin & Oxenham, 2003;Stickney, Zeng, Litovsky, & Assmann, 2004). For example, Nelson and colleagues (Nelson & Jin, 2004;Nelson et al., 2003) compared the performance of three listener groups (NH, CI, and NH-Sim) for sentence recognition in the presence of different masking noises, including steady-state noise and gated noise m...

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Section: Clinical Implications For CI Listenerssupporting

confidence: 67%

mentioning

confidence: 99%

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confidence: 99%

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Masking Release and Modulation Interference in Cochlear Implant and Simulation Listeners

Jin

Nie

2013

Am J Audiol

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“…It was found that temporally interpolated noise, even at very high levels, had little effect on sentence recognition using masking-release conditions similar to those of Kwon et al [(2012). J. Acoust.…”

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confidence: 97%

“…These studies indicate that intelligibility is increased when fluctuations are introduced to a masker (e.g., Miller, 1947b;Carhart et al, 1966), thus providing glimpses of speech in the masker dips. Kwon et al (2012) examined MR under conditions specifically designed to promote or suppress it. In one condition (-MR), masker fluctuations occurred simultaneously with speech-energy fluctuations, thus maximizing the masking of speech by noise and minimizing MR.…”

Section: Introductionmentioning

confidence: 99%

Evidence for independent time-unit processing of speech using noise promoting or suppressing masking release

Healy

Youngdahl

Apoux

2014

The Journal of the Acoustical Society of America

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The relative independence of time-unit processing during speech reception was examined. It was found that temporally interpolated noise, even at very high levels, had little effect on sentence recognition using masking-release conditions similar to those of Kwon et al. [(2012). J. Acoust. Soc. Am. 131, 3111À3119]. The current data confirm the earlier conclusions of Kwon et al. involving masking release based on the relative timing of speech and noise. These data also indicate substantial levels of independence in the time domain, which has implications for current theories of speech perception in noise.

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Correlations Between Pitch and Phoneme Perception in Cochlear Implant Users and Their Normal Hearing Peers

Goldsworthy

2015

JARO

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This study examined correlations between pitch and phoneme perception for nine cochlear implant users and nine normal hearing listeners. Pure tone frequency discrimination thresholds were measured for frequencies of 500, 1000, and 2000 Hz. Complex tone fundamental frequency (F0) discrimination thresholds were measured for F0s of 110, 220, and 440 Hz. The effects of amplitude and frequency roving were measured under the rationale that individuals who are robust to such perturbations would perform better on phoneme perception measures. Phoneme identification was measured using consonant and vowel materials in quiet, in stationary speech-shaped noise (SSN), in spectrally notched SSN, and in temporally gated SSN. Cochlear implant pure tone frequency discrimination thresholds ranged between 1.5 and 9.9 %, while cochlear implant complex tone F0 discrimination thresholds ranged between 2.6 and 28.5 %. On average, cochlear implant users had 5.3 dB of masking release for consonants and 8.4 dB of masking release for vowels when measured in temporally gated SSN compared to stationary SSN. Correlations with phoneme identification measures were generally higher for complex tone discrimination measures than for pure tone discrimination measures. Correlations with phoneme identification measures were also generally higher for pitch perception measures that included amplitude and frequency roving. The strongest correlations were observed for measures of complex tone F0 discrimination with phoneme identification in temporally gated SSN. The results of this study suggest that musical training or signal processing strategies that improve F0 discrimination should improve consonant identification in fluctuating noise.

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Sentence recognition in noise promoting or suppressing masking release by normal-hearing and cochlear-implant listeners

Cited by 21 publications

References 34 publications

Masking Release and Modulation Interference in Cochlear Implant and Simulation Listeners

Masking Release and Modulation Interference in Cochlear Implant and Simulation Listeners

Evidence for independent time-unit processing of speech using noise promoting or suppressing masking release

Correlations Between Pitch and Phoneme Perception in Cochlear Implant Users and Their Normal Hearing Peers

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