A comparison of ocular artifact removal methods for block design based electroencephalography experiments

Reinmar Kobler; Andreea Ioana Sburlea; Gernot Müller-Putz

doi:10.3217/978-3-85125-533-1-44

A comparison of ocular artifact removal methods for block design based electroencephalography experiments

Reinmar Kobler, Andreea Ioana Sburlea, Gernot Müller-Putz

Institut für Neurotechnologie (7090)

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

Eye movements and their contribution to electroencephalographic (EEG) recordings as ocular artifacts (OAs) are well studied. Yet their existence is typically regarded as impeding analysis. A widely accepted bypass is artifact avoidance. OA processing is often reduced to rejecting contaminated data. To overcome loss of data and restriction of behavior, research groups have proposed various correction methods. State of the art approaches are data driven and typically require OAs to be uncorrelated with brain activity. This does not necessarily hold for visuomotor tasks. To prevent correlated signals, we examined a two block approach. In a first block, subjects performed saccades and blinks, according to a visually guided paradigm. We then fitted 5 artifact removal algorithms to this data. To test their stationarity regarding artifact attenuation and preservation of brain activity, we recorded a second block one hour later. We found that saccades and blinks could still be attenuated to chance level, while brain activity during rest trials could be retained.

Originalsprache	englisch
Titel	Proceedings of the 7th Graz Brain-Computer Interface Conference 2017
Untertitel	From Vision to Reality
Redakteure/-innen	Gernot Müller-Putz, David Steyrl, Selina Wrissnegger, Reinhold Scherer
Erscheinungsort	Graz
Herausgeber (Verlag)	Verlag der Technischen Universität Graz
Seiten	236-241
Seitenumfang	6
ISBN (Print)	978-3-85125-533-1
DOIs	https://doi.org/10.3217/978-3-85125-533-1-44
Publikationsstatus	Veröffentlicht - 18 Sept. 2017
Veranstaltung	7th Graz Brain-Computer Interface Conference 2017 - Dauer: 18 Sept. 2017 → 22 Sept. 2017

Konferenz

Konferenz	7th Graz Brain-Computer Interface Conference 2017
Zeitraum	18/09/17 → 22/09/17

Fields of Expertise

Human- & Biotechnology

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10.3217/978-3-85125-533-1-44Lizenz: CC BY-NC-ND 4.0

EU - Feel Your Reach - Nichtinvasive Dekodierung von kortikalen Bewegungsvorstellungsmustern und künstliches Feedback im Menschen
Müller-Putz, G.
1/05/16 → 31/07/21
Projekt: Forschungsprojekt

Dieses zitieren

Kobler, R., Sburlea, A. I., & Müller-Putz, G. (2017). A comparison of ocular artifact removal methods for block design based electroencephalography experiments. in G. Müller-Putz, D. Steyrl, S. Wrissnegger, & R. Scherer (Hrsg.), Proceedings of the 7th Graz Brain-Computer Interface Conference 2017: From Vision to Reality (S. 236-241). Artikel 44 Verlag der Technischen Universität Graz. https://doi.org/10.3217/978-3-85125-533-1-44

A comparison of ocular artifact removal methods for block design based electroencephalography experiments. / Kobler, Reinmar; Sburlea, Andreea Ioana; Müller-Putz, Gernot.
Proceedings of the 7th Graz Brain-Computer Interface Conference 2017: From Vision to Reality. Hrsg. / Gernot Müller-Putz; David Steyrl; Selina Wrissnegger; Reinhold Scherer. Graz: Verlag der Technischen Universität Graz, 2017. S. 236-241 44.

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Kobler, R, Sburlea, AI & Müller-Putz, G 2017, A comparison of ocular artifact removal methods for block design based electroencephalography experiments. in G Müller-Putz, D Steyrl, S Wrissnegger & R Scherer (Hrsg.), Proceedings of the 7th Graz Brain-Computer Interface Conference 2017: From Vision to Reality., 44, Verlag der Technischen Universität Graz, Graz, S. 236-241, 7th Graz Brain-Computer Interface Conference 2017, 18/09/17. https://doi.org/10.3217/978-3-85125-533-1-44

Kobler R, Sburlea AI, Müller-Putz G. A comparison of ocular artifact removal methods for block design based electroencephalography experiments. in Müller-Putz G, Steyrl D, Wrissnegger S, Scherer R, Hrsg., Proceedings of the 7th Graz Brain-Computer Interface Conference 2017: From Vision to Reality. Graz: Verlag der Technischen Universität Graz. 2017. S. 236-241. 44 doi: 10.3217/978-3-85125-533-1-44

Kobler, Reinmar ; Sburlea, Andreea Ioana ; Müller-Putz, Gernot. / A comparison of ocular artifact removal methods for block design based electroencephalography experiments. Proceedings of the 7th Graz Brain-Computer Interface Conference 2017: From Vision to Reality. Hrsg. / Gernot Müller-Putz ; David Steyrl ; Selina Wrissnegger ; Reinhold Scherer. Graz : Verlag der Technischen Universität Graz, 2017. S. 236-241

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abstract = "Eye movements and their contribution to electroencephalographic (EEG) recordings as ocular artifacts (OAs) are well studied. Yet their existence is typically regarded as impeding analysis. A widely accepted bypass is artifact avoidance. OA processing is often reduced to rejecting contaminated data. To overcome loss of data and restriction of behavior, research groups have proposed various correction methods. State of the art approaches are data driven and typically require OAs to be uncorrelated with brain activity. This does not necessarily hold for visuomotor tasks. To prevent correlated signals, we examined a two block approach. In a first block, subjects performed saccades and blinks, according to a visually guided paradigm. We then fitted 5 artifact removal algorithms to this data. To test their stationarity regarding artifact attenuation and preservation of brain activity, we recorded a second block one hour later. We found that saccades and blinks could still be attenuated to chance level, while brain activity during rest trials could be retained.",

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N2 - Eye movements and their contribution to electroencephalographic (EEG) recordings as ocular artifacts (OAs) are well studied. Yet their existence is typically regarded as impeding analysis. A widely accepted bypass is artifact avoidance. OA processing is often reduced to rejecting contaminated data. To overcome loss of data and restriction of behavior, research groups have proposed various correction methods. State of the art approaches are data driven and typically require OAs to be uncorrelated with brain activity. This does not necessarily hold for visuomotor tasks. To prevent correlated signals, we examined a two block approach. In a first block, subjects performed saccades and blinks, according to a visually guided paradigm. We then fitted 5 artifact removal algorithms to this data. To test their stationarity regarding artifact attenuation and preservation of brain activity, we recorded a second block one hour later. We found that saccades and blinks could still be attenuated to chance level, while brain activity during rest trials could be retained.

AB - Eye movements and their contribution to electroencephalographic (EEG) recordings as ocular artifacts (OAs) are well studied. Yet their existence is typically regarded as impeding analysis. A widely accepted bypass is artifact avoidance. OA processing is often reduced to rejecting contaminated data. To overcome loss of data and restriction of behavior, research groups have proposed various correction methods. State of the art approaches are data driven and typically require OAs to be uncorrelated with brain activity. This does not necessarily hold for visuomotor tasks. To prevent correlated signals, we examined a two block approach. In a first block, subjects performed saccades and blinks, according to a visually guided paradigm. We then fitted 5 artifact removal algorithms to this data. To test their stationarity regarding artifact attenuation and preservation of brain activity, we recorded a second block one hour later. We found that saccades and blinks could still be attenuated to chance level, while brain activity during rest trials could be retained.

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A comparison of ocular artifact removal methods for block design based electroencephalography experiments

Abstract

Konferenz

Fields of Expertise

Zugriff auf Dokument

Projekte

EU - Feel Your Reach - Nichtinvasive Dekodierung von kortikalen Bewegungsvorstellungsmustern und künstliches Feedback im Menschen

Dieses zitieren