Forward Modeling#

`Forward`	Forward class to represent info from forward solution.
`SourceSpaces`(source_spaces[, info])	Represent a list of source space.

`add_source_space_distances`(src[, ...])	Compute inter-source distances along the cortical surface.
`apply_forward`(fwd, stc, info[, start, stop, ...])	Project source space currents to sensor space using a forward operator.
`apply_forward_raw`(fwd, stc, info[, start, ...])	Project source space currents to sensor space using a forward operator.
`average_forward_solutions`(fwds[, weights, ...])	Average forward solutions.
`convert_forward_solution`(fwd[, surf_ori, ...])	Convert forward solution between different source orientations.
`decimate_surface`(points, triangles, n_triangles)	Decimate surface data.
`dig_mri_distances`(info, trans, subject[, ...])	Compute distances between head shape points and the scalp surface.
`forward.compute_depth_prior`(forward, info[, ...])	Compute depth prior for depth weighting.
`forward.compute_orient_prior`(forward[, ...])	Compute orientation prior.
`forward.restrict_forward_to_label`(fwd, labels)	Restrict forward operator to labels.
`forward.restrict_forward_to_stc`(fwd, stc[, ...])	Restrict forward operator to active sources in a source estimate.
`make_bem_model`(subject[, ico, conductivity, ...])	Create a BEM model for a subject.
`make_bem_solution`(surfs, *[, solver, verbose])	Create a BEM solution using the linear collocation approach.
`make_forward_dipole`(dipole, bem, info[, ...])	Convert dipole object to source estimate and calculate forward operator.
`make_forward_solution`(info, trans, src, bem)	Calculate a forward solution for a subject.
`make_field_map`(evoked[, trans, subject, ...])	Compute surface maps used for field display in 3D.
`make_sphere_model`([r0, head_radius, info, ...])	Create a spherical model for forward solution calculation.
`morph_source_spaces`(src_from, subject_to[, ...])	Morph an existing source space to a different subject.
`read_bem_surfaces`(fname[, patch_stats, ...])	Read the BEM surfaces from a FIF file.
`read_forward_solution`(fname[, include, ...])	Read a forward solution a.k.a.
`read_trans`(fname[, return_all, verbose])	Read a `-trans.fif` file.
`read_source_spaces`(fname[, patch_stats, verbose])	Read the source spaces from a FIF file.
`read_surface`(fname[, read_metadata, ...])	Load a Freesurfer surface mesh in triangular format.
`sensitivity_map`(fwd[, projs, ch_type, mode, ...])	Compute sensitivity map.
`setup_source_space`(subject[, spacing, ...])	Set up bilateral hemisphere surface-based source space with subsampling.
`setup_volume_source_space`([subject, pos, ...])	Set up a volume source space with grid spacing or discrete source space.
`surface.complete_surface_info`(surf[, ...])	Complete surface information.
`surface.read_curvature`(filepath[, binary])	Load in curvature values from the ?h.curv file.
`use_coil_def`(fname)	Use a custom coil definition file.
`write_bem_surfaces`(fname, surfs[, ...])	Write BEM surfaces to a fiff file.
`write_trans`(fname, trans, *[, overwrite, ...])	Write a -trans.fif file.

mne.bem:

`ConductorModel`	BEM or sphere model.
`fit_sphere_to_headshape`(info[, dig_kinds, ...])	Fit a sphere to the headshape points to determine head center.
`get_fitting_dig`(info[, dig_kinds, ...])	Get digitization points suitable for sphere fitting.
`make_watershed_bem`(subject[, subjects_dir, ...])	Create BEM surfaces using the FreeSurfer watershed algorithm.
`make_flash_bem`(subject[, overwrite, show, ...])	Create 3-Layer BEM model from prepared flash MRI images.
`make_scalp_surfaces`(subject[, subjects_dir, ...])	Create surfaces of the scalp and neck.
`convert_flash_mris`(subject[, flash30, ...])	Synthesize the flash 5 files for use with make_flash_bem.
`distance_to_bem`(pos, bem[, trans, verbose])	Calculate the distance of positions to inner skull surface.