Image Processing Reference
In-Depth Information
39.
Wang, J., Williamson, S., and Kaufman, L. (1992). Magnetic source images
determined by a lead-_eld analysis: the unique minimum-norm least-squares esti-
mation.
IEEE T. Bio-Med. Eng.
39(7): 665-675.
40.
Pascual-Marqui, R.D., Michel, C.M., and Lehman, D. (1994). Low-resolution
electromagnetic tomography: A new method for localizing electrical activity of
the brain.
Int. J. Psychophysiology
. 18: 49-65.
41.
Van Veen, B.D., van Drongelen, W., Yuchtman, M., and Suzuki, A. (1997). Local-
ization of brain electrical activity via linearly constrained minimum variance
spatial filtering.
IEEE Trans. Biomed. Eng
. 44(9): 867-880.
42.
Robinson, S.E. and Vrba, J. (1999). Functional neuroimaging by synthetic aperture
magnetometry (SAM). in Yoshimoto, T., Kotani, M., Kuriki, S., Karibe, H., and
Nakasato, N., (Eds.).
Recent Advances in Biomagnetism
, pp. 302-305. Sendai,
Japan. Tohoku University Press.
43.
Vrba, J. and Robinson, S.E. (August 2000). Differences between synthetic aperture
magnetometry (SAM) and linear beamformers. in Nenonen, J., Ilmoniemi, R., and
Katila, T., (Eds.).
12th International Conference on Biomagnetism
, Helsinki, Fin-
land, Biomag 2000. ISBN 951-22-5402-6.
44.
Ives, J.R., Warach, S., Schmitt, F., Edelman, R.R., and Schomer, D.L. (1993).
Monitoring the patient's EEG during echo planar MRI.
Electroencephalogr. Clin.
Neurophysiol
. 87(6): 417-420.
45.
Allen, P.J., Josephs, O., and Turner, R. (2000). A method for removing imaging
artifact from continuous EEG recorded during functional MRI.
NeuroImage
.
12(2): 230-239.
46.
Salek-Haddadi, A., Merschhemke, M., Lemieux, L., and Fish, D.R. (2002). Simul-
taneous EEG-correlated ictal f MRI.
NeuroImage
. 16(1): 32-40.
47.
Cohen, M.S., Goldman, R.I., Stern, J., and Engel, J., Jr. (January 2001). Simul-
taneous EEG and f MRI made easy.
NeuroImage
. 13(6 Supp. 1).
48.
Cohen, M.S. (2004). Method and Apparatus for Reducing Contamination of an
Electrical Signal. United States Patent Application: 0040097802.
49.
Anami, K., Mori, T., Tanaka, F., Kawagoe, Y., Okamoto, J., Yarita, M., Ohnishi,
T., Yumoto, M., Matsuda, H., and Saitoh, O. (2003). Stepping stone sampling for
retrieving artifact-free electroencephalogram during functional magnetic reso-
nance imaging.
NeuroImage
. 19(2.1): 281-295.
50.
Sijbers, J., Michiels, I., Verhoye, M., Van Audekerke, J., Van der Linden, A., and
Van Dyck, D. (1999). Restoration of MR-induced artifacts in simultaneously
recorded MR/EEG data.
Magn. Reson. Imaging
. 17(9): 1383-1391.
51.
Bonmassar, G., Purdon, P.L., Jaaskelainen, I.P., Chiappa, K., Solo, V., Brown, E.N.,
and Belliveau, J.W. (2002). Motion and ballistocardiogram artifact removal for
interleaved recording of EEG and EPs during MRI.
NeuroImage
. 16(4): 1127-1141.
52.
Garreffa, G., Carni, M., Gualniera, G., Ricci, G.B., Bozzao, L., De Carli, D.,
Morasso, P., Pantano, P., Colonnese, C., Roma, V., and Maraviglia, B. (2003).
Real-time MR artifacts filtering during continuous EEG/f MRI acquisition.
Magn.
Reson. Imaging
. 21(10): 1175-1189.
53.
Negishi, M., Abildgaard, M., Nixon, T., and Todd Constable, R. (2004). Removal
of time-varying gradient artifacts from EEG data acquired during continuous
f MRI.
Clin. Neurophysiol
. 115(9): 2181-2192.
54.
Hill, R.A., Chiappa, K.H., Huang-Hellinger, F., and Jenkins, B.G. (1995). EEG
during MR imaging: differentiation of movement artifact from paroxysmal cortical
activity.
Neurology
. 45(10): 1942-1943.
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