<br>
<ul>
<li>\ref arithmetic_1d_anchor "Arithmetic 1D"</li>
-<li>\ref average_length_anchor "Average Length"</li>
+<li>\ref average_length_anchor "Local Length"</li>
<li>\ref max_length_anchor "Max Size"</li>
<li>\ref deflection_1d_anchor "Deflection 1D"</li>
<li>\ref number_of_segments_anchor "Number of segments"</li>
<br>
\anchor average_length_anchor
-<h2>Average Length hypothesis</h2>
+<h2>Local Length hypothesis</h2>
-<b>Average Length</b> hypothesis can be applied for meshing of edges
+<b>Local Length</b> hypothesis can be applied for meshing of edges
composing your geometrical object. Definition of this hypothesis
consists of setting the \b length of segments, which will split these
edges, and the \b precision of rounding. The points on the edges
\image html a-averagelength.png
-\image html b-erage_length.png "Average length hypothesis - all 1D mesh elements are roughly equal"
+\image html b-erage_length.png "Local Length hypothesis - all 1D mesh elements are roughly equal"
<b>See Also</b> a sample TUI Script of a
-\ref tui_average_length "Defining Average Length" hypothesis
+\ref tui_average_length "Defining Local Length" hypothesis
operation.
<br>\anchor max_length_anchor
<b>Start and End Length</b> hypothesis allows to divide a geometrical edge
into segments so that the first and the last segments have a specified
-length. The length medium segments changes with automatically chosen
+length. The length of medium segments changes with automatically chosen
geometric progression. Then mesh nodes are
constructed at segment ends location and 1D mesh elements are
constructed on them.
\anchor fixed_points_1d_anchor
<h2>Fixed points 1D hypothesis</h2>
-<b>Fixed points 1D</b> hypothesis allows to split edges into segments
-using set of fixed points given by normalized parameters on edge and
-set of numbers of segments for splitting each sub-segment between
-fixed points. Optionally it is possible to set flag
-<b>Same Nb. Segments for all intervals</b> and
-only one value for mentioned number of segments.
+<b>Fixed points 1D</b> hypothesis allows splitting edges through a
+set of points parameterized on the edge (from 1 to 0) and a number of segments for each
+interval limited by the points.
-The direction of the splitting is defined by the orientation of the
+\image html hypo_fixedpnt_dlg.png
+
+It is possible to check in <b>Same Nb. Segments for all intervals</b>
+option and to define one value for all intervals.
+
+The splitting direction is defined by the orientation of the
underlying geometrical edge. <b>"Reverse Edges"</b> list box allows to
specify the edges for which the splitting should be made in the
-direction opposing to their orientation. This list box is enabled only
-if the geometry object is selected for the meshing. In this case the
-user can select edges to be reversed either directly picking them in
-the 3D viewer or by selecting the edges or groups of edges in the
+direction opposite to their orientation. This list box is enabled only
+if the geometrical object is selected for meshing. In this case it is
+possible to select the edges to be reversed either directly picking them in
+the 3D viewer or selecting the edges or groups of edges in the
Object browser.
-Using of this hypothesis for quadrangle face where main mesh is
-created using <b>Quadrangle(Mapping)</b> and <b>NumberOfSegments</b>
-hypothesises. Creation hypothesis <b>FixedPoint_1D</b> for submesh on
-one edge:
-
-\image html hypo_fixedpnt_dlg.png
+\image html mesh_fixedpnt.png "Example of a submesh on the edge built using Fixed points 1D hypothesis"
-Resulting 2D mesh:
-
-\image html mesh_fixedpnt.png
+<b>See Also</b> a sample TUI Script of a
+\ref tui_fixed_points "Defining Fixed Points" hypothesis operation.
*/