Exploiting Electrophysiological Measures of Semantic Processing for Auditory Attention Decoding

Dijkstra, Karen; Desain, Peter; Farquhar, Jason

doi:10.1101/2020.04.17.046813

Cited by 5 publications

(8 citation statements)

References 28 publications

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“…This suggests that semantic dissimilarity may explain a response to acoustic properties of the speech rather than a response to language processing. In line with our results, Dijkstra et al (2020) reported that no added value of semantic dissimilarity was seen after controlling for content word onsets.…”

Section: Discussionsupporting

confidence: 92%

“…To address this discrepancy, a more detailed analysis was performed, which showed that semantic dissimilarity does provide added value over and beyond content words, but fails to do so when also controlling for acoustic and speech segmentation features. Similarly, Dijkstra et al (2020) reported that no added value of semantic dissimilarity was seen after controlling for the acoustic envelope and content word onsets. On the other hand, brain responses seem to be sensitive to semantic dissimilarity under some conditions, as a study of sentence reading found N400-like effects of semantic dissimilarity (Frank and Willems, 2017), and a parallel fMRI investigation, where the participant listened to fragments of audiobooks, localized activity correlated with semantic dissimilarity in non-auditory brain areas (Frank and Willems, 2017).…”

Section: Discussionmentioning

confidence: 98%

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Neural markers of speech comprehension: measuring EEG tracking of linguistic speech representations, controlling the speech acoustics

Gillis

Vanthornhout

Simon

et al. 2021

Preprint

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When listening to speech, brain responses time-lock to acoustic events in the stimulus. Recent studies have also reported that cortical responses track linguistic representations of speech. However, tracking of these representations is often described without controlling for acoustic properties. Therefore, the response to these linguistic representations might reflect unaccounted acoustic processing rather than language processing. Here we tested several recently proposed linguistic representations, using audiobook speech, while controlling for acoustic and other linguistic representations. Indeed, some of these linguistic representations were not significantly tracked after controlling for acoustic properties. However, phoneme surprisal, cohort entropy, word surprisal and word frequency were significantly tracked over and beyond acoustic properties. Additionally, these linguistic representations are tracked similarly across different stories, spoken by different readers. Together, this suggests that these representations characterize processing of the linguistic content of speech and might allow a behaviour-free evaluation of the speech intelligibility.

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Section: Discussionsupporting

confidence: 92%

Section: Discussionmentioning

confidence: 98%

Neural markers of speech comprehension: measuring EEG tracking of linguistic speech representations, controlling the speech acoustics

Gillis

Vanthornhout

Simon

et al. 2021

Preprint

View full text Add to dashboard Cite

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“…Together, these findings outline the importance of a coherent context for the comprehension of words and full speech excerpts. Crucially, our semantic dissimilarity measure was sensitive to speech comprehension, giving further support to the conclusion that the neural measure reflects contextual effects on language understanding (see Fig S1 (Broderick et al, 2018)) and refuting the recent suggestions that the semantic dissimilarity TRF may reflect the processing of content words more generally (Dijkstra et al, 2020). In addition, output measures from the semantic dissimilarity TRF were correlated with behavioural scores at the level of individual subjects and individual trials.…”

Section: Discussionsupporting

confidence: 84%

“…Understanding a word's meaning following the coherent linguistic context in which it appears forms the basis for natural speech comprehension. Recent studies have attempted to obtain electrophysiological indices of this process by modelling how brain responses are affected by a word's meaning relative to its context (Broderick, Anderson, Di Liberto, Crosse, & Lalor, 2018;Dijkstra, Desain, & Farquhar, 2020;Frank & Willems, 2017). One particular approach involved regressing electroencephalographic responses to natural speech against the semantic dissimilarity of words to their preceding context (Broderick et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

More than Words: Neurophysiological Correlates of Semantic Dissimilarity Depend on Comprehension of the Speech Narrative

Broderick

Zuk

Anderson

et al. 2020

Preprint

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Speech comprehension relies on the ability to understand the meaning of words within a coherent context. Recent studies have attempted to obtain electrophysiological indices of this process by modelling how brain activity is affected by a word’s semantic dissimilarity to preceding words. While the resulting indices appear robust and are strongly modulated by attention, it remains possible that, rather than capturing the contextual understanding of words, they may actually reflect word-to-word changes in semantic content without the need for a narrative-level understanding on the part of the listener. To test this possibility, we recorded EEG from subjects who listened to speech presented in either its original, narrative form, or after scrambling the word order by varying amounts. This manipulation affected the ability of subjects to comprehend the narrative content of the speech, but not the ability to recognize the individual words. Neural indices of semantic understanding and low-level acoustic processing were derived for each scrambling condition using the temporal response function (TRF) approach. Signatures of semantic processing were observed for conditions where speech was unscrambled or minimally scrambled and subjects were able to understand the speech. The same markers were absent for higher levels of scrambling when speech comprehension dropped below chance. In contrast, word recognition remained high and neural measures related to envelope tracking did not vary significantly across the different scrambling conditions. This supports the previous claim that electrophysiological indices based on the semantic dissimilarity of words to their context reflect a listener’s understanding of those words relative to that context. It also highlights the relative insensitivity of neural measures of low-level speech processing to speech comprehension.

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“…It is, therefore, possible that their estimated TRFs may have captured contributions from other features time-locked to word onsets (e.g., ones related to lexical and syntactic processing). Indeed, in a recent reanalysis of cocktail party data from Broderick et al (2018), Dijkstra et al (2020) showed that replacing dissimilarity values in a regressor with unit-amplitude impulses leads to estimation of essentially identical TRFs to those obtained with the impulses scaled by dissimilarity features. This insensitivity to impulse scaling calls into question the extent to which said TRFs reflect dissimilarity-related processing.…”

mentioning

confidence: 99%

Amplified cortical tracking of word-level features of continuous competing speech in older adults

Mesík

Ray

Wojtczak

2020

Preprint

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Speech-in-noise comprehension difficulties are common among the elderly population, yet traditional objective measures of speech perception are largely insensitive to this deficit, particularly in the absence of clinical hearing loss. In recent years, a growing body of research in young normal-hearing adults has demonstrated that high-level features related to speech semantics and lexical predictability elicit strong centro-parietal negativity in the EEG signal around 400 ms following the word onset. Here we investigate effects of age on cortical tracking of these word-level features within a two-talker speech mixture, and their relationship with self-reported difficulties with speech-in-noise understanding. While undergoing EEG recordings, younger and older adult participants listened to a continuous narrative story in the presence of a distractor story. We then utilized forward encoding models to estimate cortical tracking of three speech features: 1) “semantic” dissimilarity of each word relative to the preceding context, 2) lexical surprisal for each word, and 3) overall word audibility. Our results revealed robust tracking of all three features for attended speech, with surprisal and word audibility showing significantly stronger contributions to neural activity than dissimilarity. Additionally, older adults exhibited significantly stronger tracking of surprisal and audibility than younger adults, especially over frontal electrode sites, potentially reflecting increased listening effort. Finally, neuro-behavioral analyses revealed trends of a negative relationship between subjective speech-in-noise perception difficulties and the model goodness-of-fit for attended speech, as well as a positive relationship between task performance and the goodness-of-fit, indicating behavioral relevance of these measures. Together, our results demonstrate the utility of modeling cortical responses to multi-talker speech using complex, word-level features and the potential for their use to study changes in speech processing due to aging and hearing loss.

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Exploiting Electrophysiological Measures of Semantic Processing for Auditory Attention Decoding

Cited by 5 publications

References 28 publications

Neural markers of speech comprehension: measuring EEG tracking of linguistic speech representations, controlling the speech acoustics

Neural markers of speech comprehension: measuring EEG tracking of linguistic speech representations, controlling the speech acoustics

More than Words: Neurophysiological Correlates of Semantic Dissimilarity Depend on Comprehension of the Speech Narrative

Amplified cortical tracking of word-level features of continuous competing speech in older adults

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