GMS:Interpolation Commands: Difference between revisions

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{{Infobox GMS Commands}}
{{Infobox GMS Commands}}


Once a 3D interpolation scheme has been selected and the appropriate parameters 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, a new dataset is constructed for the target object containing the interpolated values. A separate interpolation command is provided for interpolating to each of the target objects. The interpolation commands are found in the ''Interpolation'' menu. The commands are as follows:
Once a 3D interpolation scheme has been selected and the appropriate parameters 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, a new dataset is constructed for the target object containing the interpolated values. A separate interpolation command is provided for interpolating to each of the target objects. The interpolation commands are found in the ''Interpolation'' menu. The commands in this menu are as follows:
; Interpolation Options : Opens the [[GMS:2D Interpolation Options|''Interpolation Options'']] dialog to change the interpolation method.
; Interpolate → Active TIN : Interpolates to the vertices of the active TIN.
; Interpolate → 2D Mesh : Interpolates to the nodes of the 2D finite element mesh.
; Interpolate → 2D Grid : Interpolates to the 2D finite difference grid. The interpolation is done either to the grid nodes or to the grid cell centers depending on whether the grid is a mesh-centered or cell-centered grid. (See [[GMS:2D Grid Module#Grid Types|2D Grid Types]].)
; Interpolate → 3D Mesh : Interpolates to the nodes of the 3D finite element mesh.
; Interpolate → 3D Grid : Interpolates to the 3D finite difference grid. The interpolation is done either to the grid nodes or to the grid cell centers depending on whether the grid is a mesh-centered or cell-centered grid. (See [[GMS:2D Grid Module#Grid Types|2D Grid Types]].)
; Interpolate → MODFLOW Layers : The [[GMS:Interpolate to MODFLOW Layers|'''Interpolate to MODFLOW Layers''']] command allows interpolating from 2D scatter data to MODFLOW data: top and bottom layer elevations, LPF array data (HK, VK, etc.), recharge.
; Interpolate → UGrid : Interpolates to the cells of the active UGrid.
; Gaussian Simulation Options : [[GMS:Gaussian Field Generator|Gaussian Sequential Simulation (GSS)]] is a form of Kriging that can only be used for 2D interpolation and only works when interpolating to 3D cell-centered grids.
; Jackknifing : Interpolates the active scatter point set to itself using the currently selected interpolation scheme. 3D jackknifing is identical to [[GMS:Jackknifing|2D jackknifing]].


*'''Interpolate → Active TIN'''
When one of the interpolation commands is selected, the ''Interpolate→Object'' dialog appears. This dialog shows the interpolation being used and has an option to bring up the [[GMS:2D Interpolation Options|''Interpolation Options'']] dialog to change the interpolation method. The ''Interpolated dataset name'' can also be specified for the new dataset being generated.
<blockquote>The Interpolate to Active TIN command interpolates to the vertices of the active TIN. </blockquote>


*'''Interpolate &rarr; 2D Mesh'''
:[[File:InterpolateToObject.png|thumb|none|225 px|Example of the ''Interpolate &rarr; Objects'' dialog]]
<blockquote>The Interpolate to 2D Mesh command interpolates to the nodes of the 2D finite element mesh. </blockquote>
 
*'''Interpolate &rarr; 2D Grid'''
<blockquote>The Interpolate to 2D Grid command interpolates to the 2D finite difference grid. The interpolation is done either to the grid nodes or to the grid cell centers depending on whether the grid is a mesh-centered or cell-centered grid. (See [[GMS:2D Grid Module#Grid Types|2D Grid Types]]) </blockquote>
 
*'''Interpolate &rarr; 3D Mesh'''
<blockquote>The Interpolate to 3D Mesh command interpolates to the nodes of the 3D finite element mesh. </blockquote>
 
*'''Interpolate &rarr; 3D Grid'''
<blockquote>The Interpolate to 3D Grid command interpolates to the 3D finite difference grid. The interpolation is done either to the grid nodes or to the grid cell centers depending on whether the grid is a mesh-centered or cell-centered grid. (See [[GMS:2D Grid Module#Grid Types|2D Grid Types]]) </blockquote>
 
*'''Interpolate &rarr; MODFLOW Layers'''
<blockquote>The [[GMS:Interpolate to MODFLOW Layers|Interpolate to MODFLOW Layers]] commmand lets you interpolate from 2D scatter data to MODFLOW data: top and bottom layer elevations, LPF array data (HK, VK, etc), recharge. </blockquote>
 
*'''Gaussian Simulation Options'''
<blockquote>[[GMS:Gaussian Field Generator|Gaussian Sequential Simulation (GSS)]] is a form of Kriging that can only be used for 2D interpolation and only works when interpolating to 3D cell-centered grids. </blockquote>
 
*'''Jackknifing'''
<blockquote> 3D Jacknifing identical to [[GMS:Jackknifing|2D Jacknifing]]. </blockquote>
 
When one of the interpolation commands is selected, the ''Interpolate'' dialog appears.




==See also==
==See also==


*[[GMS:3D Scatter Point Module#Interpolating with 3D Scatter Points|Interpolating with 3D Scatter Points]]
*[[GMS:Interpolating with 3D Scatter Points|Interpolating with 3D Scatter Points]]


*[[GMS:2D Scatter Point Module#Interpolating with 2D Scatter Points|Interpolating with 2D Scatter Points]]
*[[GMS:Interpolating with 2D Scatter Points|Interpolating with 2D Scatter Points]]






{{Navbox GMS}}
{{Navbox GMS}}
[[Category:Interpolation|I]]
[[Category:Interpolation|Command]]

Latest revision as of 18:04, 9 June 2022

GMS Commands
Common
File
Edit
Display
Modules
TINs
Boreholes
Solids
Mesh (2D)
Grid (2D)
Scatter Points (2D)
Interpolation (2D and 3D)
Mesh (3D)
Grid (3D)
Scatter Points (3D)
Feature Objects
GIS
UGrid
Models
FEMWATER
MODAEM
MODFLOW
mod-PATH3DU
MODPATH
MT3DMS
SEAWAT
SEEP2D
T-PROGS
UTEXAS

Once a 3D interpolation scheme has been selected and the appropriate parameters 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, a new dataset is constructed for the target object containing the interpolated values. A separate interpolation command is provided for interpolating to each of the target objects. The interpolation commands are found in the Interpolation menu. The commands in this menu are as follows:

Interpolation Options
Opens the Interpolation Options dialog to change the interpolation method.
Interpolate → Active TIN
Interpolates to the vertices of the active TIN.
Interpolate → 2D Mesh
Interpolates to the nodes of the 2D finite element mesh.
Interpolate → 2D Grid
Interpolates to the 2D finite difference grid. The interpolation is done either to the grid nodes or to the grid cell centers depending on whether the grid is a mesh-centered or cell-centered grid. (See 2D Grid Types.)
Interpolate → 3D Mesh
Interpolates to the nodes of the 3D finite element mesh.
Interpolate → 3D Grid
Interpolates to the 3D finite difference grid. The interpolation is done either to the grid nodes or to the grid cell centers depending on whether the grid is a mesh-centered or cell-centered grid. (See 2D Grid Types.)
Interpolate → MODFLOW Layers
The Interpolate to MODFLOW Layers command allows interpolating from 2D scatter data to MODFLOW data: top and bottom layer elevations, LPF array data (HK, VK, etc.), recharge.
Interpolate → UGrid
Interpolates to the cells of the active UGrid.
Gaussian Simulation Options
Gaussian Sequential Simulation (GSS) is a form of Kriging that can only be used for 2D interpolation and only works when interpolating to 3D cell-centered grids.
Jackknifing
Interpolates the active scatter point set to itself using the currently selected interpolation scheme. 3D jackknifing is identical to 2D jackknifing.

When one of the interpolation commands is selected, the Interpolate→Object dialog appears. This dialog shows the interpolation being used and has an option to bring up the Interpolation Options dialog to change the interpolation method. The Interpolated dataset name can also be specified for the new dataset being generated.

Example of the Interpolate → Objects dialog


See also