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reference:ft_headmodel_simbio [2018/08/23 14:43] (current)
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 +=====  FT_HEADMODEL_SIMBIO =====
 +
 +Note that this reference documentation is identical to the help that is displayed in MATLAB when you type "help ft_headmodel_simbio"​.
 +
 +<​html><​pre>​
 +  <a href=/​reference/​ft_headmodel_simbio><​font color=green>​FT_HEADMODEL_SIMBIO</​font></​a>​ creates a volume conduction model of the head
 +  using the finite element method (FEM) for EEG. This function takes
 +  as input a volumetric mesh (hexahedral or tetrahedral) and
 +  returns as output a volume conduction model which can be used to
 +  compute leadfields.
 + 
 +  This implements
 +        ...
 + 
 +  Use as
 +    headmodel = ft_headmodel_simbio(mesh,'​conductivity',​ conductivities,​ ...)
 + 
 +  The mesh is given as a volumetric mesh, using ft_datatype_parcellation
 +    mesh.pos = vertex positions
 +    mesh.tet/​mesh.hex = list of volume elements
 +    mesh.tissue = tissue assignment for elements
 +    mesh.tissuelabel = labels correspondig to tissues
 + 
 +  Required input arguments should be specified in key-value pairs and have
 +  to include
 +    conductivity ​  = vector containing tissue conductivities using ordered
 +                     ​corresponding to mesh.tissuelabel
 + 
 + ​%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 + 
 +  To run this on Windows the following packages are necessary:
 + 
 +  Microsoft Visual C++ 2008 Redistributable
 + 
 +  Intel Visual Fortran Redistributables
 + 
 + ​%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 + 
 +  See also <a href=/​reference/​ft_prepare_vol_sens><​font color=green>​FT_PREPARE_VOL_SENS</​font></​a>,​ <a href=/​reference/​ft_compute_leadfield><​font color=green>​FT_COMPUTE_LEADFIELD</​font></​a>​
 +</​pre></​html>​