Contrastive Principal Component Analysis in the Time-Frequency Domain for EEG Data Reduction
Electroencephalogram (EEG) is a non-invasive approach to measuring neural oscillations. As EEG signals are known to be non-stationary, one common approach to analyze them has been time-frequency analysis. Time-frequency distributions allow us to represent the time-varying energy content of the signa...
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| Published in | Conference record - Asilomar Conference on Signals, Systems, & Computers pp. 563 - 566 |
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| Main Authors | , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
27.10.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2576-2303 |
| DOI | 10.1109/IEEECONF60004.2024.10943062 |
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| Abstract | Electroencephalogram (EEG) is a non-invasive approach to measuring neural oscillations. As EEG signals are known to be non-stationary, one common approach to analyze them has been time-frequency analysis. Time-frequency distributions allow us to represent the time-varying energy content of the signals across different frequency bands. However, analyzing multichannel EEG data across multiple experimental conditions and subjects in the time-frequency domain results in highly redundant representations. In order to reduce the dimensionality and extract relevant features in the time-frequency domain, principal component analysis (PCA) has been widely utilized. Time-Frequency PCA (TF-PCA) provides a data-driven way to reduce the time-frequency surfaces into a few meaningful components. In many clinical studies, it is not only sufficient to reduce the EEG data into a few interpretable components, it is also important to discriminate between different experimental conditions or subject groups. In this paper, we extend TF-PCA by employing recently introduced contrastive PCA (cPCA) to discover low-dimensional structure that discriminates between two datasets. The proposed TF-cPCA approach is evaluated on an EEG study to discriminate between experimental conditions and brain regions from event-related potentials recorded during a cognitive control task. |
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| AbstractList | Electroencephalogram (EEG) is a non-invasive approach to measuring neural oscillations. As EEG signals are known to be non-stationary, one common approach to analyze them has been time-frequency analysis. Time-frequency distributions allow us to represent the time-varying energy content of the signals across different frequency bands. However, analyzing multichannel EEG data across multiple experimental conditions and subjects in the time-frequency domain results in highly redundant representations. In order to reduce the dimensionality and extract relevant features in the time-frequency domain, principal component analysis (PCA) has been widely utilized. Time-Frequency PCA (TF-PCA) provides a data-driven way to reduce the time-frequency surfaces into a few meaningful components. In many clinical studies, it is not only sufficient to reduce the EEG data into a few interpretable components, it is also important to discriminate between different experimental conditions or subject groups. In this paper, we extend TF-PCA by employing recently introduced contrastive PCA (cPCA) to discover low-dimensional structure that discriminates between two datasets. The proposed TF-cPCA approach is evaluated on an EEG study to discriminate between experimental conditions and brain regions from event-related potentials recorded during a cognitive control task. |
| Author | Marchywka, Nathan Aviyente, Selin |
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| Snippet | Electroencephalogram (EEG) is a non-invasive approach to measuring neural oscillations. As EEG signals are known to be non-stationary, one common approach to... |
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| StartPage | 563 |
| SubjectTerms | Computers Diseases Electrodes Electroencephalography Feature extraction Neural activity Principal component analysis Time-frequency analysis |
| Title | Contrastive Principal Component Analysis in the Time-Frequency Domain for EEG Data Reduction |
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