Title :
Spatial localization of neural sources using the magnetoencephalogram
Author :
Mosher, John ; Lewis, Paul ; Leahy, Richard
Author_Institution :
Dept. of Electr. Eng. Syst., Univ. of Southern California, Los Angeles, CA, USA
Abstract :
An array of superconducting quantum interference device (SQUID) biomagnetometers may be used to measure the spatio-temporal neuromagnetic field or magnetoencephalogram (MEG) produced by the brain in response to a given sensory stimulus. A popular model for the neural activity that produces these fields is a set of current dipoles. It is assumed that the location, orientation, and magnitude of the dipoles are unknown. The authors show how the problem may be decomposed into the estimation of the dipole locations using nonlinear minimization followed by linear estimation of the associated moment time series. The methods described are demonstrated in a simulated application to a three dipole problem. Cramer-Rao lower bounds are derived for the white Gaussian noise case.<>
Keywords :
biomagnetism; biomedical measurement; brain models; spectral analysis; white noise; Cramer-Rao lower bounds; MEG; SQUID biomagnetometers; brain; dipole locations; magnetoencephalogram; neural activity; neural sources; spatial localisation; three dipole problem; white Gaussian noise; Extraterrestrial measurements; Gaussian noise; Image processing; Inverse problems; Laboratories; Magnetic field measurement; SQUIDs; Sensor arrays; Superconducting magnets; Systems engineering and theory;
Conference_Titel :
Spectrum Estimation and Modeling, 1990., Fifth ASSP Workshop on
Conference_Location :
Rochester, NY, USA
DOI :
10.1109/SPECT.1990.205593
