Generate Radiometric Terrain Corrected Data (Image Analyst Tools)
Summary
Transforms Level 1 synthetic aperture radar (SAR) data to a radiometric terrain-corrected (RTC) dataset. Use the RTC data for analysis and visualization.
This tool creates a SAR output that removes unwanted noise and distortions by applying the appropriate RTC workflow according to the input SAR sensor, mode, and product type.
Usage
This tool replaces the need to run each SAR correction tool individually, such as Download Orbit File, Apply Orbit Correction, Remove Thermal Noise, Apply Radiometric Calibration, Deburst, Multilook, Apply Radiometric Terrain Flattening, Despeckle, and Apply Geometric Terrain Correction. The tool detects the input sensor and mode to perform the appropriate RTC workflow in a single script to make the RTC process efficient.
Use the Processing Level parameter to optionally save the output radar products during the RTC workflow. Only create the output products that are needed, as they may use a lot of disk space.
Parameters
| Label | Explanation | Data type |
|---|---|---|
|
Input Radar Data |
The input radar data. The input data must be Level 1 radar data. |
Raster Dataset; Raster Layer |
|
Output Radar Data |
The RTC dataset. |
Raster Dataset |
|
DEM Raster |
The input DEM. The DEM that will be used to estimate the local illuminated area and the local incidence angle. |
Raster Dataset; Raster Layer |
|
Apply geoid correction (Optional) |
Specifies whether the vertical reference system of the input DEM will be transformed to ellipsoidal height. Most elevation datasets are referenced to sea level orthometric height, so a correction is required in these cases to convert to ellipsoidal height.
|
Boolean |
|
Polarization Bands (Optional) |
The polarization bands that will be filtered. The first band is selected by default. Select all polarization bands if the output will be with the SAR Analysis tools. |
String |
|
Output Units (Optional) |
Specifies the units that will be used for the RTC outputs.
|
String |
|
Processing Level (Optional) |
Specifies the radar products that will be retained. The available processing levels depend on the input radar data and its corresponding processing workflow. By default, no option will be used, and no radar products will be retained.
|
String |
|
Output Folder (Optional) |
The output folder where the output radar products will be retained. |
Workspace |
|
Username (Optional) |
The Copernicus Data Space Ecosystem login credential username. This parameter is only valid when the input data has Sentinel restituted or Sentinel precise orbit types. |
String |
|
Password (Optional) |
The Copernicus Data Space Ecosystem login credential password. This parameter is only valid when the input data has Sentinel restituted or Sentinel precise orbit types. |
String Hidden |
|
Cloud Storage Connection (Optional) |
The Copernicus Data Space Ecosystem cloud storage connection file. |
File |
Derived output
| Label | Explanation | Data type |
|---|---|---|
|
Updated Folder |
The output folder where the radar products are saved. |
Workspace |
Environments
Compression, Current Workspace, Extent, Geographic Transformations, NoData, Output CONFIG Keyword, Output Coordinate System, Parallel Processing Factor, Pyramid, Raster Statistics, Resampling Method, Scratch Workspace, Snap Raster, Tile Size
Licensing information
- Basic: Requires Image Analyst
- Standard: Requires Image Analyst
- Advanced: Requires Image Analyst
Related topics
- An overview of the Synthetic Aperture Radar toolset
- Capella GEC workflow
- Capella GEO workflow
- Capella Sensor Independent Complex Data workflow
- ICEYE GRD workflow
- ICEYE Sensor Independent Complex Data workflow
- RADARSAT Constellation Mission Ground Range Detected workflow
- RADARSAT Constellation Mission SLC workflow
- RADARSAT-2 ground range workflow
- RADARSAT-2 SLC workflow
- Sentinel-1 GRD workflow
- Sentinel-1 SLC workflow
- Find a geoprocessing tool