Tag: mismatch negativity

New paper in press — Scharinger et al., PLOS ONE [Update]

Post author By Jonas
Post date 2012/07/15

We are happy that our paper

A Sparse Neural Code for Some Speech Sounds but Not for Others

is scheduled for publication in PLOS ONE on July 16^th, 2012.

This is also our first paper in collaboration with Alexandra Bendixen from the University of Leipzig.

The research reported in this article provides an extension of the predictive coding framework onto speech sounds and assumes that auditory processing uses predictions that are not only derived from ongoing contextual updates, but also from long-term memory representations — neural codes — of speech sounds. Using the German minimal pair [lats]/[laks] (bib/salmon) in a passive-oddball design, we find the expected Mismatch Negativity (MMN) asymmetry that is compatible with a predictive coding framework, but also with linguistic underspecification theory.

[Update]

Paper is available here.

References

Scharinger M, Bendixen A, Trujillo-Barreto NJ, Obleser J. A sparse neural code for some speech sounds but not for others. PLoS One. 2012;7(7):e40953. PMID: 22815876. [Open with Read]

Tags Bendixen, mismatch negativity, mmn, Obleser, PLOS ONE, reaction time, Scharinger, sculp, Trujillo-Barreto

Auditory Perception Auditory Speech Processing EEG / MEG Evoked Activity Linguistics Papers Place of Articulation Features Publications Speech

New paper out in Journal of Speech, Language, & Hearing Research [Update]

Post author By Jonas
Post date 2011/11/11

We are happy to announce that our paper “Asymmetries in the processing of vowel height” will be appearing in the Journal of Speech, Language, & Hearing Research, authored by Philip Monahan, William Idsardi and Mathias Scharinger. A short summary is given below:

Purpose: Speech perception can be described as the transformation of continuous acoustic information into discrete memory representations. Therefore, research on neural representations of speech sounds is particularly important for a better understanding of this transformation. Speech perception models make specific assumptions regarding the representation of mid vowels (e.g., [ ${varepsilon}$ ]) that are articulated with a neutral position in regard to height. One hypothesis is that their representation is less specific than the representation of vowels with a more specific position (e.g., [æ]).

Method: In a magnetoencephalography study, we tested the underspecification of mid vowel in American English. Using a mismatch negativity (MMN) paradigm, mid and low lax vowels ([ ${varepsilon}$ ]/[æ]), and high and low lax vowels ([I]/[æ]), were opposed, and M100/N1 dipole source parameters as well as MMN latency and amplitude were examined.

Results: Larger MMNs occurred when the mid vowel [ ${varepsilon}$ ] was a deviant to the standard [æ], a result consistent with less specific representations for mid vowels. MMNs of equal magnitude were elicited in the high–low comparison, consistent with more specific representations for both high and low vowels. M100 dipole locations support early vowel categorization on the basis of linguistically relevant acoustic–phonetic features.

Conclusion: We take our results to reflect an abstract long-term representation of vowels that do not include redundant specifications at very early stages of processing the speech signal. Moreover, the dipole locations indicate extraction of distinctive features and their mapping onto representationally faithful cortical locations (i.e., a feature map).

[Update]

The paper is available here.

References

Scharinger M, Monahan PJ, Idsardi WJ. Asymmetries in the processing of vowel height. J Speech Lang Hear Res. 2012 Jun;55(3):903–18. PMID: 22232394. [Open with Read]

Tags Idsardi, Journal of Speech Language and Hearing Research, mismatch negativity, Monahan, n1m dipoles, representation of speech sounds, Scharinger, vowel processing

Auditory Cortex EEG / MEG Evoked Activity Linguistics Papers Publications

New Paper out: HELLO? in press (NeuroImage)

Post author By Jonas
Post date 2011/04/15

Phonetic cues instantaneously mapped onto dialectal categories appear to be extracted at early moments in auditory speech perception, as we try to show in our paper

You had me at “Hello”: Rapid extraction of dialect information from spoken words

to appear in NeuroImage (Mathias Scharinger, Philip Monahan, William Idsardi).

In a modified passive oddball design, we compare the Mismatch Negativity (MMN) to deviants in one American English dialect (Standard American English or African-American Vernacular English) to the standards of the respective other dialect. In a control condition, deviants within the same dialects have the same averaged acoustic distance to their standards than the cross-dialectal averaged acoustic distance. Standards and deviants were always spoken exemplars of ‘Hello’ in both dialects (ca. 500 ms). MMN effects are significant in the cross-dialectal condition only, implying that a pure acoustic standard-deviant distance is not sufficient to elicit substantial mismatch effects. We interpret these findings, together with N1m source localization data, as evidence for a rapid extraction of dialect information via salient acoustic-phonetic cues. From the location and orientation of the N1m source activity, we can infer that dialect switches from standards to deviants engage areas in superior temporal sulcus/gyrus.

References

Scharinger M, Monahan PJ, Idsardi WJ. You had me at “Hello”: Rapid extraction of dialect information from spoken words. Neuroimage. 2011 Jun 15;56(4):2329–38. PMID: 21511041. [Open with Read]

Tags cerebral voice areas, dialect perception, Idsardi, mismatch negativity, mmn, Monahan, NeuroImage, Scharinger, speaker identity

Auditory Cortex Auditory Speech Processing EEG / MEG Evoked Activity Linguistics Papers Place of Articulation Features Publications

Paper in press: Are labials special?

Post author By Jonas
Post date 2011/01/04

This went online just a day before Christmas:

Neuromagnetic evidence for a featural distinction of English consonants: Sensor- and source-space data

by Mathias Scharinger, Jennifer Merickel, Joshua Riley, and William Idsardi
http://dx.doi.org/10.1016/j.bandl.2010.11.002

We wanted to look at featural (categorical) place of articulation distinctions in English consonants, and selected labial and coronal fricatives and glides for an MMN study. In this study, we looked at sensor- and source-space effects of labial deviants preceded by coronal standards and coronal deviants preceded by labial standards, across the two manners of articulation, i.e. fricatives and glides. Note that there are rather dramatic acoustic differences between these manners of articulation: uncorrelated noise through narrow constriction vs. vowel-like sound with typical resonance frequencies. We found consistent place-of-articulation effects, independent of manner of articulation: labial deviants produced larger MMN, contra a directional hypothesis of underspecification, and dipole source locations followed the Obleser-gradient in that labials elicited N1m dipoles anterior to dipoles of coronals in auditory cortex.

References

Scharinger M, Merickel J, Riley J, Idsardi WJ. Neuromagnetic evidence for a featural distinction of English consonants: sensor- and source-space data. Brain Lang. 2011 Feb;116(2):71–82. PMID: 21185073. [Open with Read]

Tags asymmetric speech processing, Brain and Language, Idsardi, Merickelb, mismatch negativity, mmn, n1m dipoles, Rileya, Scharinger, underspecification

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