Extracting rhythmic brain activity for brain-computer interfacing through constrained independent component analysis
Extracting rhythmic brain activity for brain-computer interfacing through constrained independent component analysis
We propose a technique based on independent component analysis (ICA) with constraints, applied to the rhythmic electroencephalographic (EEG) data recorded from a brain-computer interfacing (BCI) system. ICA is a technique that can decompose the recorded EEG into its underlying independent components and in BCI involving motor imagery, the aim is to isolate rhythmic activity over the sensorimotor cortex. We demonstrate that, through the technique of spectrally constrained ICA, we can learn a spatial filter suited to each individual EEG recording. This can effectively extract discriminatory information from two types of single-trial EEG data. Through the use of the ICA algorithm, the classification accuracy is improved by about 25%, on average, compared to the performance on the unpreprocessed data. This implies that this ICA technique can be reliably used to identify and extract BCI-related rhythmic activity underlying the recordings where a particular filter is learned for each subject. The high classification rate and low computational cost make it a promising algorithm for application to an online BCI system.
9pp
Wang, S.
8bce5bdb-420c-4b22-b009-8f4ce1febaa8
James, C.J.
b3733b1f-a6a1-4c9b-b75c-6191d4142e52
2007
Wang, S.
8bce5bdb-420c-4b22-b009-8f4ce1febaa8
James, C.J.
b3733b1f-a6a1-4c9b-b75c-6191d4142e52
Wang, S. and James, C.J.
(2007)
Extracting rhythmic brain activity for brain-computer interfacing through constrained independent component analysis.
Computational Intelligence and Neuroscience, 2007 (ID 41468), .
(doi:10.1155/2007/41468).
Abstract
We propose a technique based on independent component analysis (ICA) with constraints, applied to the rhythmic electroencephalographic (EEG) data recorded from a brain-computer interfacing (BCI) system. ICA is a technique that can decompose the recorded EEG into its underlying independent components and in BCI involving motor imagery, the aim is to isolate rhythmic activity over the sensorimotor cortex. We demonstrate that, through the technique of spectrally constrained ICA, we can learn a spatial filter suited to each individual EEG recording. This can effectively extract discriminatory information from two types of single-trial EEG data. Through the use of the ICA algorithm, the classification accuracy is improved by about 25%, on average, compared to the performance on the unpreprocessed data. This implies that this ICA technique can be reliably used to identify and extract BCI-related rhythmic activity underlying the recordings where a particular filter is learned for each subject. The high classification rate and low computational cost make it a promising algorithm for application to an online BCI system.
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Published date: 2007
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Local EPrints ID: 49445
URI: http://eprints.soton.ac.uk/id/eprint/49445
ISSN: 1687-5265
PURE UUID: 6a02a855-9cbe-49df-87ff-2c74c422c660
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Date deposited: 14 Nov 2007
Last modified: 15 Mar 2024 09:56
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Author:
S. Wang
Author:
C.J. James
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