EEG source localization by multi-planar analytic sensing

Source localization from EEG surface measurements is an important problem in neuro-imaging. We propose a new mathematical framework to estimate the parameters of a multidipole source model. To that aim, we perform 2-D analytic sensing in multiple planes. The estimation of the projection on each plane of the dipoles' positions, which is a non-linear problem, is reduced to polynomial root finding. The 3-D information is then recovered as a special case of tomographic reconstruction. The feasibility of the proposed approach is shown for both synthetic and experimental data.

EEG source localization by multi-planar analytic sensing

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FETCH: A Fast and Efficient Technique for Channel Selection in EEG Wearable Systems

Spectral representation of EEG data using learned graphs with application to motor imagery decoding

Brain's Dynamic Functional Organization with Simultaneous EEG-fMRI Networks

FETCH: A Fast and Efficient Technique for Channel Selection in EEG Wearable Systems

Spectral representation of EEG data using learned graphs with application to motor imagery decoding

Brain's Dynamic Functional Organization with Simultaneous EEG-fMRI Networks