Пример #1
0
 def head2meg(self):
     """
     Call OpenMEEG's Head2MEGMat method to calculate the head to MEG sensor
     matrix.
     """
     LOG.info("Computing Head2MEGMat...")
     h2s_mat = om.Head2MEGMat(self.om_head, self.om_sensors)
     LOG.info("head2meg: %d x %d" % (h2s_mat.nlin(), h2s_mat.ncol()))
     return h2s_mat
Пример #2
0
###############################################################################
# Compute forward problem (Build Gain Matrices)

gauss_order = 3
use_adaptive_integration = True
dipole_in_cortex = True

hm = om.HeadMat(geom, gauss_order)
#hm.invert() # invert hm inplace (no copy)
#hminv = hm
hminv = hm.inverse()  # invert hm with a copy
ssm = om.SurfSourceMat(geom, mesh)
ss2mm = om.SurfSource2MEGMat(mesh, sensors)
dsm = om.DipSourceMat(geom, dipoles, gauss_order, use_adaptive_integration, "")
ds2mm = om.DipSource2MEGMat(dipoles, sensors)
h2mm = om.Head2MEGMat(geom, sensors)
h2em = om.Head2EEGMat(geom, patches)
gain_meg_surf = om.GainMEG(hminv, ssm, h2mm, ss2mm)
gain_eeg_surf = om.GainEEG(hminv, ssm, h2em)
gain_meg_dip = om.GainMEG(hminv, dsm, h2mm, ds2mm)
gain_adjoint_meg_dip = om.GainMEGadjoint(geom, dipoles, hm, h2mm, ds2mm)
gain_eeg_dip = om.GainEEG(hminv, dsm, h2em)
gain_adjoint_eeg_dip = om.GainEEGadjoint(geom, dipoles, hm, h2em)
gain_adjoint_eeg_meg_dip = om.GainEEGMEGadjoint(geom, dipoles, hm, h2em, h2mm,
                                                ds2mm)

print "hm                  : %d x %d" % (hm.nlin(), hm.ncol())
print "hminv               : %d x %d" % (hminv.nlin(), hminv.ncol())
print "ssm                 : %d x %d" % (ssm.nlin(), ssm.ncol())
print "ss2mm               : %d x %d" % (ss2mm.nlin(), ss2mm.ncol())
print "dsm                 : %d x %d" % (ssm.nlin(), ssm.ncol())
Пример #3
0
# Compute forward problem (Build Gain Matrices)

gauss_order = 3
use_adaptive_integration = True
dipole_in_cortex = True

hm = om.HeadMat(geom, gauss_order)
# hm.invert() # invert hm inplace (no copy)
# hminv = hm
hminv = hm.inverse()  # invert hm with a copy
ssm = om.SurfSourceMat(geom, mesh)
ss2mm = om.SurfSource2MEGMat(mesh, sensors)
dsm = om.DipSourceMat(geom, dipoles, gauss_order, use_adaptive_integration, "")
ds2mm = om.DipSource2MEGMat(dipoles, sensors)
h2mm = om.Head2MEGMat(geom, sensors)
h2em = om.Head2EEGMat(geom, patches)
gain_meg_surf = om.GainMEG(hminv, ssm, h2mm, ss2mm)
gain_eeg_surf = om.GainEEG(hminv, ssm, h2em)
gain_meg_dip = om.GainMEG(hminv, dsm, h2mm, ds2mm)
gain_adjoint_meg_dip = om.GainMEGadjoint(geom, dipoles, hm, h2mm, ds2mm)
gain_eeg_dip = om.GainEEG(hminv, dsm, h2em)
gain_adjoint_eeg_dip = om.GainEEGadjoint(geom, dipoles, hm, h2em)
gain_adjoint_eeg_meg_dip = om.GainEEGMEGadjoint(geom, dipoles, hm, h2em, h2mm,
                                                ds2mm)

print("hm                  : %d x %d" % (hm.nlin(), hm.ncol()))
print("hminv               : %d x %d" % (hminv.nlin(), hminv.ncol()))
print("ssm                 : %d x %d" % (ssm.nlin(), ssm.ncol()))
print("ss2mm               : %d x %d" % (ss2mm.nlin(), ss2mm.ncol()))
print("dsm                 : %d x %d" % (ssm.nlin(), ssm.ncol()))