GMS:Creating and Editing UGrids
UGrid Module | |
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UGrid | |
Creating and Editing | |
Viewing Modes | |
Converting to Other Data Types | |
Exporting UGrids | |
UGrid Interpolation | |
More | |
Display Options | |
Tool Palette | |
Cell Properties | |
UGrid Commands | |
There are a number of ways to create UGrids. Currently UGrids cannot be edited after they are created.
Contents
Importing
UGrids can be imported from a VTK XML file by selecting the File|Open command or by dragging and dropping the file onto the GMS window. GMS recognizes the ".vtu" extension, which by convention is the extension used for a VTK XML file containing an unstructured grid.
New UGrid 2D/3D
Right-clicking anywhere in the Project Explorer or on the UGrid Data item will display a menu with New UGrid 2D and New UGrid 3D commands. These commands bring up the New UGrid dialog which specifies options for the creation of a new UGrid, and is very similar to the Create Grid dialog for 3D structured grids.
Map → UGrid
The Map → UGrid command creates a UGrid from feature objects. It can be found in the Feature Objects menu, in the Map toolbar, and in some pop-up menus when right-clicking on items in the Project Explorer (Coverage, Grid Frame). The command opens the Create UGrid dialog.
Map → UGrid Dialog
- Dimension – Specifies whether a 2D or 3D UGrid will be created.
- UGrid type
- Regular (not refined) – Creates a grid with rectangular cells that are not refined. Any refinement attributes specified on feature objects is ignored.
- Quad tree – Creates a grid with rectangular cells that are refined in a quad tree manner around any points, arcs and polygons which specify the refinement attribute and refinement size.
- Voronoi – Creates a Voronoi grid with cells of various sizes and shapes which meet the Voronoi criteria. Only the active coverage is used and it must contain a polygon because the algorithm uses the polygon to create a triangular mesh. The mesh is refined around points that are marked as refine points based on the specified refinement size. The mesh is constructed to honor all arc geometry. If refinement is specified as an attribute on arcs or polygons it is ignored.
- Refine points – If the Quadtree / Octree option is selected and refine points exist in multiple coverages, specifies which refine points to use.
- Point refinement – If the UGrid type is Quadtree / Octree, this combo box shows the option Refine all layers the same which will result in all layers having the same number of cells, and the Octree option which refines and smooths in the vertical direction.
- Arc/poly refinement – Similar to the Point refinement option for arcs and polygons and with the addition of the option Quadtree on assigned layers which refines horizontally in a quadtree fashion for only the layers that the arcs and polygons are assigned to in the attribute tables.
- X, Y, Z number of cells
- If not using the Voronoi UGrid type, the size and number of cells in the X, Y and Z dimensions can be specified. For quad tree UGrids, the cell size represents the large, unrefined size. The small, refined size is determined by the refinement specified at points, arcs and polygons. Also for quad tree UGrids, if the cell size is specified, it represents a target cell size (large, unrefined size); the actual cell size will likely be somewhat different so that the cells fit within the grid boundaries.
If a grid frame exists, it is used to determine the location of the grid boundaries. If polygons exist and the Regular or Quad tree options are used, any cells that are not inside a polygon are not included in the UGrid.
Conversion From Other Data Types
The following data types can be converted to UGrids by right-clicking on the object in the Project Explorer and selecting the Convert To > UGrid command from the pop-up menu.
- TINs
- 2D Grids
- 3D Grids
- 2D Mesh
- 3D Mesh
- Polygons in a coverage (Map To > Polygons -> UGrid)
- Polygon shape files in the GIS Module
Horizons
The Horizons → UGrid command (in the TINs and Boreholes menus) uses horizons to create a 3D UGrid.
Extrude Down to 3D UGrid
Right-clicking on a UGrid shows the Extrude Down to 3D UGrid command. If the UGrid has 2D cells, this command can be used to create a new UGrid with 3D prismatic cells. The user can specify the number of layers and the thickness of each layer.
3D → 2D
If the UGrid has 3D cells, this command brings up a dialog asking for the layer number from which a UGrid consisting of 2D cells will be created.
Cell Refinement
This contains information about a future release of GMS. The content may not apply to other versions. |
The ability to refine UGrid cells depends on the UGrid structure. UGrid cells can be refined by selecting the cells, right clicking on them, and selecting the Refine menu item. A new copy of the UGrid will generated with the selected cells refined. The cells will be refined based on the structure of the UGrid. For a UGrid with quadtree structure a cell is refined by adding an additional level of quadtree refinement. For a UGrid with unknown refinement a 3D cell is refined by adding a node at the middle of each horizontal edge along with a new node at the center of the top and bottom faces. Voronoi structured UGrid cells can only be refined by permanently removing the grid structure.
GMS – Groundwater Modeling System | ||
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Modules: | 2D Grid • 2D Mesh • 2D Scatter Point • 3D Grid • 3D Mesh • 3D Scatter Point • Boreholes • GIS • Map • Solid • TINs • UGrids | |
Models: | FEFLOW • FEMWATER • HydroGeoSphere • MODAEM • MODFLOW • MODPATH • mod-PATH3DU • MT3DMS • MT3D-USGS • PEST • PHT3D • RT3D • SEAM3D • SEAWAT • SEEP2D • T-PROGS • ZONEBUDGET | |
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