2012
DOI: 10.1121/1.4751543
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The relative importance of spectral cues for vowel recognition in severe noise

Abstract: The importance of formants and spectral shape was investigated for vowel perception in severe noise. Twelve vowels were synthesized using two different synthesis methods, one where the original spectral detail was preserved, and one where the vowel was represented by the spectral peaks of the first three formants. In addition, formants F1 and F2 were suppressed individually to investigate the importance of each in severe noise. Vowels were presented to listeners in quiet and in speechshaped noise at signal to … Show more

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Cited by 20 publications
(23 citation statements)
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“…Vowels are characteristically described according to low-frequency resonance characteristics (e.g., Peterson and Barney, 1952;Hillenbrand et al, 1995;Molis, 2005;Swanepoel et al, 2012). Classically, the study of vowel perception has focused on the lowest formant frequencies, typically F1, F2, and F3.…”
Section: Introductionmentioning
confidence: 99%
“…Vowels are characteristically described according to low-frequency resonance characteristics (e.g., Peterson and Barney, 1952;Hillenbrand et al, 1995;Molis, 2005;Swanepoel et al, 2012). Classically, the study of vowel perception has focused on the lowest formant frequencies, typically F1, F2, and F3.…”
Section: Introductionmentioning
confidence: 99%
“…Alternatively, it is possible that the speech cues employed in the present study, i.e., formant energy locations along the implanted array, may not be as predictive of CI users' vowel confusions in noise as they are in quiet. Normal hearing listeners can utilize a large number of acoustic cues when identifying speech sounds, and the particular cues they employ in quiet listening conditions may not be the same as the cues they employ in noisy listening conditions (Ferguson and Kewley-Port, 2002;Parikh and Loizou, 2005;Swanepoel et al, 2012). Although CI users are more limited in the number and type of speech cues they can employ to understand speech, the speech cues they use to understand speech in noise may differ than those used for quiet.…”
Section: B Experiments 2: Mpi Model Performance In Quiet Vs Noisementioning
confidence: 99%
“…It is possible to incorporate relative weighting between speech cue dimensions, particularly in the decision component of the model. Given that listeners with normal hearing can utilize different perceptual weighting of speech cues when understanding speech in noise in comparison to quiet (Ferguson and Kewley-Port, 2002;Parikh and Loizou, 2005;Swanepoel et al, 2012), it may be worthwhile to explore this ability in CI users. Last, the present study offers an immediate practical application.…”
Section: Future Directionsmentioning
confidence: 99%
See 1 more Smart Citation
“…The limitation of the binary association is that it requires detection of the attributes by human subjects, and measurement of the degree an attribute is present is not feasible [23], [27]. In contrast to the binary mapping, in practice a complex function governs the phonetic-phonological association that motivates the use of advanced computational methods for probabilistic characterization.…”
Section: ) P(s L )mentioning
confidence: 99%