Principal component analysis and manifold learning techniques for the design of brain-computer interfaces based on steady-state visually evoked potentials

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Principal component analysis and manifold learning techniques for the design of brain-computer interfaces based on steady-state visually evoked potentials

Yesilkaya, Bartu ...

Steady-state visually evoked potentials (SSVEP) are stochastic and nonstationary bioelectric signals. Because of these properties, it is difficult to achieve high classification accuracy, especially ... when many considered features lead to a complex structure. We therefore propose a manifold learning framework to decrease the number of features and to classify SSVEP data by comparing lower dimensional matrices with well-known machine learning algorithms. We use the AVI-SSVEP Dataset, which includes stimuli at seven different frequencies and 15360 samples per person. The SSVEP features are extracted from relevant and distinctive frequency-domain, time-domain, and time–frequency domain properties, creating a total of 55 feature vectors. We then analyze and compare five divergent manifold learning methods with respect to their performance on nine different machine-learning algorithms. Among all considered manifold learning methods, we show that the Principal Component Analysis has the best classifier performance with an average of 22 components. Moreover, the Naive Bayes classifier with the Principal Component Analysis achieves the maximum accuracy of 50.0%–80.95% for a 7-class classification problem. Our research thus shows that the proposed analytical framework can significantly improve the decoding accuracy of 7-class SSVEP problems, and that it exhibits notable robustness and efficiency for small group datasets.

Source: Journal of computational science. - ISSN 1877-7503 (Vol. 68, [article no.] 102000, Apr. 2023, str. 1-9)

Type of material - article, component part

Publish date - 2023

Language - english

COBISS.SI-ID - 146916099

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Author
Yesilkaya, Bartu | Sayilgan, Ebru | Yuce, Yilmaz Kemal | Perc, Matjaž | Isler, Yalcin

Author	Yesilkaya, Bartu ...
Title	Principal component analysis and manifold learning techniques for the design of brain-computer interfaces based on steady-state visually evoked potentials
Publication date
COBISS.SI-ID	146916099
Publication version in repository	Unidentified
Publication licence	Unidentified
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Title	Acronym	Project ID	Funder
Računsko intenzivni kompleksni sistemi		P1-0403-2019	Javna agencija za znanstvenoraziskovalno in inovacijsko dejavnost Republike Slovenije
Fazni prehodi proti koordinaciji v večplastnih omrežjih		J1-2457-2020	Javna agencija za znanstvenoraziskovalno in inovacijsko dejavnost Republike Slovenije

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https://dk.um.si/IzpisGradiva.php?id=88121

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source: Journal of computational science. - ISSN 1877-7503 (Vol. 68, [article no.] 102000, Apr. 2023, str. 1-9)

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Yesilkaya, Bartu
Sayilgan, Ebru
Yuce, Yilmaz Kemal
Perc, Matjaž	23428
Isler, Yalcin

Source: Personal bibliographies and: SICRIS

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