ISIS Application Documentation
Translate an image by given sample and line translation values
Description
This program will translate an image any amount in both the sample and line
directions.
Categories
History
Tracie Sucharski | 2002-12-30 |
Original version
|
Kim Sides | 2003-05-13 |
Added application test
|
Stuart Sides | 2003-05-16 |
Modified schema location from astogeology... to isis.astrogeology..."
|
Stuart Sides | 2003-05-30 |
Fixed compiler error with uninitialized variable after adding -O1 flag
|
Stuart Sides | 2003-07-29 |
Modified filename parameters to be cube parameters where necessary
|
Steven Lambright | 2007-06-22 |
Fixed typo in user documentation
|
Steven Lambright | 2008-05-13 |
Removed references to CubeInfo
|
|
Parameter Groups
Files
Name
|
Description
|
FROM |
Input cube to translate
|
TO |
Output cube
|
Translation
Name
|
Description
|
STRANS | Sample translation value |
LTRANS | Line translation value |
Interpolation
Name
|
Description
|
INTERP | Type of interpolation |
|
Files:
FROM
Description
Use this parameter to select the filename. All bands within the file
will be translated unless a specific band is specified.
Type
| cube |
File Mode
| input |
Filter
|
*.cub
|
Files:
TO
Description
This file will contain the results of the translation.
Type
| cube |
File Mode
| output |
Translation:
STRANS
Description
This determines translation in the sample direction.
Translation:
LTRANS
Description
This determines translation in the line direction.
Interpolation:
INTERP
Description
This is the type of interpolation to be performed on the input.
Type
| string |
Default
|
CUBICCONVOLUTION
|
Option List:
|
Option |
Brief |
Description |
NEARESTNEIGHBOR | Nearest Neighbor |
Each output pixel will be set to the pixel nearest the
calculated input pixel.
|
BILINEAR | Bi-Linear interpolation |
Each output pixel will be set to the value calculated by
a bi-linear interpolation of the calculated input pixel.
|
CUBICCONVOLUTION | Cubic Convolution interpolation |
Each output pixel will be set to the value calculated by
a cubic convolution interpolation of the calculated input pixel.
|
|