Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision
Previous revision
faq:how_can_i_fine-tune_my_bem_volume_conduction_model [2014/10/01 00:11]
robert added tags
faq:how_can_i_fine-tune_my_bem_volume_conduction_model [2017/08/17 11:21] (current)
Line 11: Line 11:
   * mesh, consisting of vertices and elements (triangles, tetraheders,​ hexaheders)   * mesh, consisting of vertices and elements (triangles, tetraheders,​ hexaheders)
  
-In cas of the BEM, the volume conduction model consists of one or multiple homogenous and isotropic compartments. The compartment boundaries are closed and non-intersecting surfaces that are described by triangulated meshes. Furthermore,​ each of the compartments is described by a conductivity.+In case of the BEM, the volume conduction model consists of one or multiple homogenous and isotropic compartments. The compartment boundaries are closed and non-intersecting surfaces that are described by triangulated meshes. Furthermore,​ each of the compartments is described by a conductivity.
  
 To make the highest quality BEM volume conduction model, FieldTrip offers a number of functions to manipulate these three classes of geometrical data. If we summarize the geometrical data as **anatomy**,​ **segmentation** and **mesh**, then we can consider functions that take one type of geometrical data as input, and return the same or another type. To make the highest quality BEM volume conduction model, FieldTrip offers a number of functions to manipulate these three classes of geometrical data. If we summarize the geometrical data as **anatomy**,​ **segmentation** and **mesh**, then we can consider functions that take one type of geometrical data as input, and return the same or another type.