Forward Solution and BEM

The following script creates the forward model and BEM, from which the inverse operator will be computed. It is essential that you have created the [http://imaging.mrc-cbu.cam.ac.uk/meg/AnalyzingData/MNE_MRI_processing source space and head surfaces, and realigned your MRI and MEG coordinate systems].

The script creates two forward solutions: One for MEG only (using only the inner skull surface), and one for combined EEG and MEG analysis (using inner skull, out skull and skin surfaces). If you only have MEG data, you can skip the latter. The main ingredients for this step are

* the source space (cortical surface)

* the head surfaces (describing boundaries of different electrical conductivity)

* the MEG data (at this stage only sensor/electrode positions and MRI-MEG realignment)

The end product will be the forward solution file (something ending in *fwd.fif), which can be read into Matlab using mne_read_forward_solution. The BEM surfaces can be read using mne_read_bem_surfaces.

If using EEG, you may need to apply mne_check_eeg_locations to your measurement file YourMEGfile.fif.

The parameters below are reasonable choices for standard analyses. However, these Wiki pages are not supposed to substitute the [http://www.nmr.mgh.harvard.edu/meg/manuals/MNE-manual-2.6.pdf MNE manual], [http://imaging.mrc-cbu.cam.ac.uk/meg/MEGpapers reading papers], and [http://imaging.mrc-cbu.cam.ac.uk/imaging/ImagersInterestGroup discussions] with more experienced researchers.

#

## Your variables:

datapath='<myMEGdatapath>'    # root directory for your MEG data

MRIpath='/myMRIdirectory/'    # where your MRI subdirectories are

# subjects names used for MRI data
subjects=(\
        'Subject1' \
        'Subject2' \
        'Subject3' \
)

# MEG IDs (your directory structure may differ)
subj_pre=(\
        'meg10_0001' \
        'meg10_0002' \
        'meg10_0003' \
        )

# MEG subdirectories (your directory structure may differ)      
subj_dir=(\
         '100001' \
         '100002' \
         '100003' \
        )
        

## Processing:

nsubjects=${#subjects[*]}
lastsubj=`expr $nsubjects - 1`

for m in `seq 0 ${lastsubj}`
do
  echo " "
  echo " Computing forward solution for SUBJECT  ${subjects[m]}"
  echo " "
  
  ## setup model 3 layers (EEG+MEG)
  mne_setup_forward_model --overwrite  --subject ${subjects[m]} --surf --ico 4
 
  mne_do_forward_solution \
                        --overwrite \
                        --subject ${subjects[m]} \
                        --mindist 5 \
                        --spacing 5 \
                        --bem ${MRIpath}/${subjects[m]}/bem/${subjects[m]}-5120-5120-5120-bem-sol.fif \
                        --src ${MRIpath}/${subjects[m]}/bem/${subjects[m]}-5-src.fif \
                        --meas ${datapath}/${subj_pre[m]}/${subj_dir[m]}/YourMEGfile.fif  \
                        --fwd ${datapath}/${subj_pre[m]}/${subj_dir[m]}/YourName_5-3L-EMEG-fwd.fif



  ## setup model 1 layer (MEG only)
  mne_setup_forward_model --overwrite  --subject ${subjects[m]} --surf --homog --ico 4

  mne_do_forward_solution \
                        --overwrite \
                        --subject ${subjects[m]} \
                        --mindist 5 \
                        --spacing 5 \
                        --megonly \
                        --bem ${MRIpath}/${subjects[m]}/bem/${subjects[m]}-5120-bem-sol.fif \
                        --src ${MRIpath}/${subjects[m]}/bem/${subjects[m]}-5-src.fif \
                        --meas ${datapath}/${subj_pre[m]}/${subj_dir[m]}/YourMEGfile.fif \
                        --fwd ${datapath}/${subj_pre[m]}/${subj_dir[m]}/YourName_5-1L-MEG-fwd.fif

done # subjects