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Statements

Subject Item
n2:85289
rdf:type
n5:ArticleEPrint n5:EPrint bibo:Article bibo:AcademicArticle
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n19:technologies8040063
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dcterms:title
In-ear electrode EEG for practical SSVEP BCI
wdrs:describedby
n13:export_kar_RDFN3.n3 n21:export_kar_RDFN3.n3
dcterms:date
2020-11-05
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n7:ext-s.mouli@kent.ac.uk n7:ext-em576@kent.ac.uk n7:ext-r.palani@kent.ac.uk n7:ext-i.v.mcloughlin@kent.ac.uk
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n17:peerReviewed n17:published
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n15:ext-0e8d92de9fd14082663dc2f585fd1d29
bibo:abstract
Steady State Visual Evoked Potential (SSVEP) methods for brain–computer interfaces (BCI) are popular due to higher information transfer rate and easier setup with minimal training, compared to alternative methods. With precisely generated visual stimulus frequency, it is possible to translate brain signals into external actions or signals. Traditionally, SSVEP data is collected from the occipital region using electrodes with or without gel, normally mounted on a head cap. In this experimental study, we develop an in-ear electrode to collect SSVEP data for four different flicker frequencies and compare against occipital scalp electrode data. Data from five participants demonstrates the feasibility of in-ear electrode based SSVEP, significantly enhancing the practicability of wearable BCI applications.
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n20:QA75
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n16:authors
bibo:issue
4
bibo:volume
8