E. Timothy Uy scite author profile

E. Timothy Uy

4Publications

32Citation Statements Received

0Citation Statements Given

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111

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Stanford University, Ventura College

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Single-Trial Classification of MEG Recordings

Guimaraes¹,

Wong²,

Uy³

et al. 2007

IEEE Trans. Biomed. Eng.

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While magnetoencephalography (MEG) is widely used to identify spatial locations of brain activations associated with various tasks, classification of single trials in stimulus-locked experiments remains an open subject. Very significant single-trial classification results have been published using electroencephalogram (EEG) data, but in the MEG case, the weakness of the magnetic fields originating from the relevant sources relative to external noise, and the high dimensionality of the data are difficult obstacles to overcome. We present here very significant MEG single-trial mean classification rates of words. The number of words classified varied from seven to nine and both visual and auditory modalities were studied. These results were obtained by using a variety of blind sources separation methods: spatial principal components analysis (PCA), Infomax independent components analysis (Infomax ICA) and second-order blind identification (SOBI). The sources obtained were classified using two methods, linear discriminant classification (LDC) and v-support vector machine (v-SVM). The data used here, auditory and visual presentations of words, presented nontrivial classification problems, but with Infomax ICA associated with LDC we obtained high classification rates. Our best single-trial mean classification rate was 60.1% for classification of 900 single trials of nine auditory words. On two-class problems rates were as high as 97.5%.

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Quantifying inter-subject agreement in brain-imaging analyses

Wong

Grosenick

et al. 2008

NeuroImage

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Classification of individual trials based on the best independent component of EEG-recorded sentences

Wong

Guimaraes

et al. 2004

Neurocomputing

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Interpretation of perceptron weights as constructed time series for EEG classification

Wong

Guimaraes

et al. 2006

Neurocomputing

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E. Timothy Uy

Single-Trial Classification of MEG Recordings

Quantifying inter-subject agreement in brain-imaging analyses

Classification of individual trials based on the best independent component of EEG-recorded sentences

Interpretation of perceptron weights as constructed time series for EEG classification

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