Objective: Ample behavioral evidence suggests that distributional properties of the language environment influence the processing of speech. Yet, how these characteristics are reflected in neural processes remains largely unknown. The present ERP study investigates neurophysiological correlates of phonotactic probability: the distributional frequency of phoneme combinations. Methods: We employed an ERP measure indicative of experience-dependent auditory memory traces, the mismatch negativity (MMN). We presented pairs of non-words that differed by the degree of phonotactic probability in a codified passive oddball design that minimizes the contribution of acoustic processes. Results: In Experiment 1 the non-word with high phonotactic probabi...
During language acquisition in the first year of life, children become sensitive to phonotactic prob...
A central issue in speech recognition is how contrastive phonemic information is stored in the menta...
Specific Language Impairment (SLI) is a developmental disorder affecting language learning across a ...
Objective: Ample behavioral evidence suggests that distributional properties of the language environ...
Predictions of our sensory environment facilitate perception across domains. During speech perceptio...
Developmental dyslexia is strongly associated with a phonological deficit. Yet, implicit phonologica...
The brain is constantly generating predictions of future sensory input to enable efficient adaptatio...
Phonological and semantic processing was studied using high-resolution event-related brain potential...
Two experiments examined phonological priming effects on reaction times, error rates, and event-rela...
The ability to repeat polysyllabic nonwords such as “blonterstaping” has frequently been shown to co...
Two experiments examined phonological priming effects on reaction times, error rates, and event-rela...
The ability to repeat polysyllabic nonwords such as "blonterstaping" has frequently been shown to co...
Many factors affect our ability to decode the speech signal, including its quality, the complexity o...
During language acquisition in the first year of life, children become sensitive to phonotactic prob...
A central issue in speech recognition is how contrastive phonemic information is stored in the menta...
Specific Language Impairment (SLI) is a developmental disorder affecting language learning across a ...
Objective: Ample behavioral evidence suggests that distributional properties of the language environ...
Predictions of our sensory environment facilitate perception across domains. During speech perceptio...
Developmental dyslexia is strongly associated with a phonological deficit. Yet, implicit phonologica...
The brain is constantly generating predictions of future sensory input to enable efficient adaptatio...
Phonological and semantic processing was studied using high-resolution event-related brain potential...
Two experiments examined phonological priming effects on reaction times, error rates, and event-rela...
The ability to repeat polysyllabic nonwords such as “blonterstaping” has frequently been shown to co...
Two experiments examined phonological priming effects on reaction times, error rates, and event-rela...
The ability to repeat polysyllabic nonwords such as "blonterstaping" has frequently been shown to co...
Many factors affect our ability to decode the speech signal, including its quality, the complexity o...
During language acquisition in the first year of life, children become sensitive to phonotactic prob...
A central issue in speech recognition is how contrastive phonemic information is stored in the menta...
Specific Language Impairment (SLI) is a developmental disorder affecting language learning across a ...