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...to other types of objects with in GMS such as 2D scatter points, TINs, or 3D meshes. Borehole data is converted by using the following commands in the [ ; [[GMS:Horizons to 3D Mesh|Horizons to 3D Mesh]] :

{{2D Scatter Point links}} Scatter point sets are used for interpolation to other data types such as TINs, grids, an

...y be converted to other types of data used in GMS, such as a 2D mesh or 2D scatter points. TINs can be converted by right-clicking on the TIN in the [[GMS:Pro ...ed with the TIN and the duplicate datasets are stored with the new scatter point set.

:[[GMS:3D Interpolation Options|3D Interpolation Options]] :[[GMS:3D Kriging|3D Kriging]]

{{2D Scatter Point links}} ...ints. A group of scatter points is called a scatter point set. Each of the scatter points is defined by a set of xy coordinates.

{{3D Grid links}} ...GMS such as 2D grids, 2D scatter points, 3D meshes, or 3D scatter points. 3D grid data is converted using the following commands in the Grid menu:

'''Select Feature point or Node Tool''' can refer to: *[[GMS:Feature Object Tool Palette#Select Point|GMS Select Point/Node Tool]]

[[File:3DinterpolationOpts.jpg|thumb|500 px|The ''3D Interpolation Options'' dialog.]] [[GMS:3D Scatter Point Module|3D scatter point]] sets are used for [[GMS:Interpolation|interpolation]] to other data types

The ''Grid'' menu becomes available when the 3D Grid module is active. The menu has one submenu; the ''Convert To'' submenu. Below is a ...oints|Grid → 3D Scatter Points]] : Creates a scatter point set with a point on the center of each cell with the value of the cell.

The ''Mesh'' menu is available when the 3D Mesh module is active. The menu has one submenu: the ''Convert To'' submenu. The menu c ; [[GMS:Creating_a_3D_Mesh|New 3D Mesh]] : Creates a new, empty 3D mesh.

...GMS, such as a [[GMS:TIN Module|TIN]] or [[GMS:2D Scatter Point Module|2D scatter points]]. 2D meshes are converted by using the following commands in the '' == Mesh → 2D Scatter Points ==

...]] can be used with [[GMS:T-PROGS|TPROGS]] to create material sets for the 3D grid. #Build a 3D grid defining the extents of the model. Two approaches are available:

...for the selected scheme have been input, the dataset of the active scatter point set can be interpolated to another object. During the interpolation process ...ther the grid is a mesh-centered or cell-centered grid. (See [[GMS:2D Grid Module#Grid Types|2D Grid Types]].)

...[GMS:2D Scatter Point Module|2D scatter points]], and [[GMS:3D Mesh Module|3D meshes]] can all be converted to a 2D mesh. This is accomplished by using t ...tes a set of 2D finite element nodes from the points in the active scatter point set. Requires triangulating the nodes to create the 2D mesh.

...Mesh Module|3D meshes]], [[GMS:3D Grid Module|3D grids]], and [[GMS:UGrid Module|UGrids]]. In addition to interpolating scalar values, GMS also supports int ...ed to values at scatter points. However, the resulting arrays are floating point scalar datasets, rather than the integer arrays produced by T-PROGS and ind

...ve been used for different modules. For example, the x, y, z locations for scatter points are referred to as points in contrast to the locations of a mesh bei ...Scatter Points and 3D Scatter Points in XMS. The difference between 2D and 3D only becomes important if points exist in the grid at the same x, y locatio

| align = "center" | [[File:TIN Module Icon.svg|16 px]] || align = "center" | [[GMS:TIN Display Options|TIN Data] | align = "center" | [[File:Borehole Module Icon.svg|16 px]] || align = "center" | [[GMS:Borehole Display Options|Bor

...the ''Create Grid'' dialog. See [[GMS:Map to Modules#Map to 3D Grid|Map to 3D Grid]] for more information. ...rent coverage. See [[GMS:Map to Modules#Map to 2D Scatter Points|Map to 2D Scatter Points]] for more information.

...hted item in the ''[[WMS:Interpolation Options|2D Interpolation Options]] (3D Interpolation Options)'' dialog. The options in the dialog are as follows: ...), and ''w_i'' are the weight functions assigned to each scatter point. The classical form of the weight function is:

{{3D Mesh links}} ...a set of 3D Mesh nodes. Elements can be created by using one of the [[GMS:3D Mesh Tool Palette|'''Create Element''' tools]] and then selecting the mesh