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Systematic evaluation of recursive approach of EEG-segment-based PCA for removal of helium-pump artefact from MRIopen access

Authors
Kim, Hyun-ChulLee, Jong-Hwan
Issue Date
7월-2022
Publisher
WILEY
Citation
ELECTRONICS LETTERS, v.58, no.15, pp.567 - 569
Indexed
SCIE
SCOPUS
Journal Title
ELECTRONICS LETTERS
Volume
58
Number
15
Start Page
567
End Page
569
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/142913
DOI
10.1049/ell2.12519
ISSN
0013-5194
Abstract
The cryogenic pump is a crucial component of the magnetic resonance imaging (MRI) system for delivering liquid helium to a magnet for superconductivity, thereby generating a mechanical vibration. Thus, the cryogenic pump for liquid helium (helium pump) contaminates the electroencephalography (EEG) simultaneously acquired with functional MRI. The recursive approach of EEG-segment-based principal component analysis (rsPCA) has recently demonstrated its efficacy in removing this helium pump artefact. In the rsPCA, the recursion depth and EEG-segment size are crucial hyperparameters. rsPCA's performance and computational time across recursion depth (1, 2, 3) and segment sizes (165, 220, 265) are systematically evaluated. It is found that the recursion depth of 2 yielded significant reductions in the computational time compared to the depth of 3 across all segment sizes while maintaining the denoising performance. The binary classification performance (left-hand versus right-hand clenching) was also enhanced in this scenario (especially the use of EEG-segment size of 165 and 220) by using EEG gamma-band activity (30-50 Hz), which is predominantly contaminated by the helium-pump artefact.
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