by Di Liberto, Giovanni M; Wong, Daniel; Melnik, Gerda Ana; de Cheveigne, Alain
Abstract:
Humans comprehend speech despite the various challenges of real-world environments, such as loud noise and mispronunciation. Our auditory system is robust to these thanks to the integration of the upcoming sensory input with prior knowledge and expectations built on language-specific regularities. One such regularity regards the permissible phoneme sequences, which determine the likelihood that a word belongs to a given language (phonotactic probability; \textquoterightblick\textquoteright is more likely to be an English word than \textquoterightbnick\textquoteright). Previous research suggested that violations of these rules modulate brain evoked responses such as the N400 and the late positive complex. Yet several fundamental questions remain unresolved, especially regarding the neural encoding and integration strategy of phonotactic information. Here, we used linear modelling approaches to assess the influence of phonotactic probabilities on the brain responses to narrative speech measured with non-invasive EEG. We found that the relationship between continuous speech and EEG responses is best described when the speech descriptor includes phonotactic probabilities. This provides us with a methodology to isolate and measure the brain responses to phonotactics using natural speech at the individual subject-level. Furthermore, such low-frequency signals showed the strongest speech-EEG interactions at latencies of 100-400 ms, supporting a pre-lexical role of phonotactic information.
Reference:
Di Liberto, Giovanni M; Wong, Daniel; Melnik, Gerda Ana; de Cheveigne, Alain (2018). Cortical responses to natural speech reflect probabilistic phonotactics. bioRxiv.
Bibtex Entry:
@article{DiLiberto359828,
Abstract = {Humans comprehend speech despite the various challenges of real-world environments, such as loud noise and mispronunciation. Our auditory system is robust to these thanks to the integration of the upcoming sensory input with prior knowledge and expectations built on language-specific regularities. One such regularity regards the permissible phoneme sequences, which determine the likelihood that a word belongs to a given language (phonotactic probability; {\textquoteright}blick{\textquoteright} is more likely to be an English word than {\textquoteright}bnick{\textquoteright}). Previous research suggested that violations of these rules modulate brain evoked responses such as the N400 and the late positive complex. Yet several fundamental questions remain unresolved, especially regarding the neural encoding and integration strategy of phonotactic information. Here, we used linear modelling approaches to assess the influence of phonotactic probabilities on the brain responses to narrative speech measured with non-invasive EEG. We found that the relationship between continuous speech and EEG responses is best described when the speech descriptor includes phonotactic probabilities. This provides us with a methodology to isolate and measure the brain responses to phonotactics using natural speech at the individual subject-level. Furthermore, such low-frequency signals showed the strongest speech-EEG interactions at latencies of 100-400 ms, supporting a pre-lexical role of phonotactic information.},
Author = {Di Liberto, Giovanni M and Wong, Daniel and Melnik, Gerda Ana and de Cheveigne, Alain},
Date-Added = {2018-07-02 15:48:19 +0000},
Date-Modified = {2018-07-03 10:31:36 +0000},
Doi = {10.1101/359828},
Eprint = {https://www.biorxiv.org/content/early/2018/06/30/359828.full.pdf},
Journal = {bioRxiv},
Title = {Cortical responses to natural speech reflect probabilistic phonotactics},
Url = {https://www.biorxiv.org/content/early/2018/06/30/359828},
Year = {2018}}