Julia Jones Huyck scite author profile

Adults can improve their performance on many perceptual tasks with training, but when does the response to training become mature? To investigate this question, we trained 11-year-olds, 14-year-olds and adults on a basic auditory task (temporal-interval discrimination) using a multiple-session training regimen known to be effective for adults. The adolescents all began with performance in the adult range. However, while all of the adults improved across sessions, none of the 11-year-olds and only half of the 14-year-olds did. The adolescents who failed to learn did so even though the 10-session training regimen provided twice the number of sessions required by adults to reach asymptotic performance. Further, over the course of each session, the performance of the adults was stable but that of the adolescents, including those who learned, deteriorated. These results demonstrate that the processes that underlie perceptual learning can continue to develop well into adolescence.

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Rapid perceptual learning of noise-vocoded speech requires attention

Huyck

Johnsrude

2012

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Humans are able to adapt to unfamiliar forms of speech (such as accented, time-compressed, or noise-vocoded speech) quite rapidly. Can such perceptual learning occur when attention is directed away from the speech signal? Here, participants were simultaneously exposed to noise-vocoded sentences, auditory distractors, and visual distractors. One group attended to the speech, listening to each sentence and reporting what they heard. Two other groups attended to either the auditory or visual distractors, performing a target-detection task. Only the attend-speech group benefited from the exposure when subsequently reporting noise-vocoded sentences. Thus, attention to noise-vocoded speech appears necessary for learning.

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Working Memory Training and Speech in Noise Comprehension in Older Adults

Wayne

Hamilton

Huyck

et al. 2016

Front. Aging Neurosci.

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Understanding speech in the presence of background sound can be challenging for older adults. Speech comprehension in noise appears to depend on working memory and executive-control processes (e.g., Heald and Nusbaum, 2014), and their augmentation through training may have rehabilitative potential for age-related hearing loss. We examined the efficacy of adaptive working-memory training (Cogmed; Klingberg et al., 2002) in 24 older adults, assessing generalization to other working-memory tasks (near-transfer) and to other cognitive domains (far-transfer) using a cognitive test battery, including the Reading Span test, sensitive to working memory (e.g., Daneman and Carpenter, 1980). We also assessed far transfer to speech-in-noise performance, including a closed-set sentence task (Kidd et al., 2008). To examine the effect of cognitive training on benefit obtained from semantic context, we also assessed transfer to open-set sentences; half were semantically coherent (high-context) and half were semantically anomalous (low-context). Subjects completed 25 sessions (0.5–1 h each; 5 sessions/week) of both adaptive working memory training and placebo training over 10 weeks in a crossover design. Subjects' scores on the adaptive working-memory training tasks improved as a result of training. However, training did not transfer to other working memory tasks, nor to tasks recruiting other cognitive domains. We did not observe any training-related improvement in speech-in-noise performance. Measures of working memory correlated with the intelligibility of low-context, but not high-context, sentences, suggesting that sentence context may reduce the load on working memory. The Reading Span test significantly correlated only with a test of visual episodic memory, suggesting that the Reading Span test is not a pure-test of working memory, as is commonly assumed.

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Generalization of Perceptual Learning of Degraded Speech Across Talkers

Huyck

Smith

Hawkins

et al. 2017

J Speech Lang Hear Res

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Purpose: We investigated whether perceptual learning of noise-vocoded (NV) speech is specific to a particular talker or accent.Method: Four groups of listeners (n=18 per group) were first 'trained' by listening to 20 NV sentences that had been recorded either by a talker with the same native accent as the listeners or a different regional accent. They then heard 20 novel NV sentences from either the native-or non-native-accented talker (test), in a 2x2 (training talker/accent x test talker/accent) design.Results: Word-report scores at test for participants trained and tested with the same (native-or non-native-accented) talker did not differ from those for participants trained with one talker/accent and tested on another.Conclusions: Learning of NV speech generalized completely between talkers. Two additional experiments confirmed this result. Thus, when listeners are trained to understand NV speech, they are not learning talker-or accent-specific features but instead are learning how to use the information available in the degraded signal. The results suggest that people with cochlear implants, who experience spectrally degraded speech, may not be too disadvantaged if they learn to understand speech through their implant by listening primarily to just one other talker, such as a spouse. GENERALIZATION OF LEARNING ACROSS TALKERS 3 I. IntroductionPeople are remarkably good at comprehending speech even though the acoustic realization of a given utterance can vary markedly. This variability can arise from environmental factors (e.g., background noise and reverberation), from attributes of the medium used for communication (e.g., reduced frequency bandwidth over the telephone), from talker characteristics (e.g., age, sex, size, and regional accent), and from situational factors (e.g., pragmatic context and emotional state). The ability of most listeners to understand speech in its many acoustic realizations arises in part from perceptual learning; from experience-related improvements in the comprehension of unusual-sounding, accented, or degraded speech.The intelligibility of degraded speech improves within the first few minutes of experience

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Learning, worsening, and generalization in response to auditory perceptual training during adolescence

Huyck

Wright

2013

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While it is commonly held that the capacity to learn is greatest in the young, there have been few direct comparisons of the response to training across age groups. Here, adolescents (11-17 years, n = 20) and adults (≥18 years, n = 11) practiced detecting a backward-masked tone for ∼1 h/day for 10 days. Nearly every adult, but only half of the adolescents improved across sessions, and the adolescents who learned did so more slowly than adults. Nevertheless, the adolescent and adult learners showed the same generalization pattern, improving on untrained backward- but not forward- or simultaneous-masking conditions. Another subset of adolescents (n = 6) actually got worse on the trained condition. This worsening, unlike learning, generalized to an untrained forward-masking, but not backward-masking condition. Within sessions, both age groups got worse, but the worsening was greater for adolescents. These maturational changes in the response to training largely followed those previously reported for temporal-interval discrimination. Overall, the results suggest that late-maturing processes affect the response to perceptual training and that some of these processes may be shared between tasks. Further, the different developmental rates for learning and generalization, and different generalization patterns for learning and worsening imply that learning, generalization, and worsening may have different origins.

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