TY - GEN
T1 - Construction of human head voxel models from MR images for EEG analysis based on EM algorithm
AU - Sasayama, Teruyoshi
AU - Iida, Tomoaki
AU - Oida, Takenori
AU - Hamada, Shoji
AU - Kobayashi, Tetsuo
PY - 2010
Y1 - 2010
N2 - In order to enhance the reliability of electroencephalogram (EEG) signal source analyses, utilizing EEG lead field matrices obtained by field analyses in custom-made real head models is effective technique. Custom-made models are usually constructed from voxel models derived from magnetic resonance (MR) images using a variety of image-processing techniques. We have improved one of the techniques that select threshold levels dividing signals and noises based on the EM (expectation-maximization) algorithm. This technique contributes to rapid and high-quality voxel model acquisition. We demonstrate the following operations: (a) voxel model construction, (b) lead field calculation, and (c) simulation of EEG electrode voltage measurement induced by an equivalent current dipole (ECD), which is set in the primary motor cortex by considering application of brain-machine interfaces. The proposed technique is compared with other techniques based on the voltage differences caused by the constructed model-shape differences.
AB - In order to enhance the reliability of electroencephalogram (EEG) signal source analyses, utilizing EEG lead field matrices obtained by field analyses in custom-made real head models is effective technique. Custom-made models are usually constructed from voxel models derived from magnetic resonance (MR) images using a variety of image-processing techniques. We have improved one of the techniques that select threshold levels dividing signals and noises based on the EM (expectation-maximization) algorithm. This technique contributes to rapid and high-quality voxel model acquisition. We demonstrate the following operations: (a) voxel model construction, (b) lead field calculation, and (c) simulation of EEG electrode voltage measurement induced by an equivalent current dipole (ECD), which is set in the primary motor cortex by considering application of brain-machine interfaces. The proposed technique is compared with other techniques based on the voltage differences caused by the constructed model-shape differences.
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U2 - 10.1109/ICCME.2010.5558863
DO - 10.1109/ICCME.2010.5558863
M3 - Conference contribution
AN - SCOPUS:77957796820
SN - 9781424468430
T3 - 2010 IEEE/ICME International Conference on Complex Medical Engineering, CME2010
SP - 100
EP - 105
BT - 2010 IEEE/ICME International Conference on Complex Medical Engineering, CME2010
T2 - 2010 IEEE/ICME International Conference on Complex Medical Engineering, CME2010
Y2 - 13 July 2010 through 15 July 2010
ER -