Available with Image Analyst license.
The SAR tab has tools and functionality to work with Synthetic Aperture Radar (SAR) data. The tab has three groups to visualize, process, and analyze SAR data.
The SAR contextual tab is available when a SAR raster layer is selected in the Contents pane.
Visualization
The Visualization group has tools to display the SAR data within the map.
| Icon | Tool name | Description |
|---|---|---|
| Rotation Type | Choose how to rotate the map display.
|
| Polarization | Choose the polarization to display the SAR layer. This list will only contain the valid polarizations available for the specific sensor. When displaying a single polarization, a brown-orange-yellow color scheme will be used to display the backscatter. |
—Rotate the map
display so that the shadows are cast toward the bottom of the map.
This orientation allows for easier SAR
interpretation.
—Revert the map view to the
default, where the top of the map is north.
Process
The Process group has tools to calibrate and make adjustments to preprocess SAR data. The tools in this group include the following:
| Icon | Tool name | Description |
|---|---|---|
| SAR Workflows | SAR tools to process your Level-1 SAR data, which create SAR products that can be used in your SAR analysis. SAR RTC |
Gallery | A gallery of SAR geoprocessing tools that can be used to process your Level-1 SAR data. |
—Processes SAR data to a radiometrically terrain corrected SAR product.Analysis
The Analysis group has tools to analyze SAR data.
| Icon | Tool name | Description |
|---|---|---|
| SAR Tools | Analysis tools that analyze SAR data. Feature Detection Wizard |
| SAR Indices |
|
—Detect features within your SAR scene, such as water bodies, bright ocean objects, and dark ocean areas.
—The ratio of cross-polarized backscatter to the total backscatter from all polarizations. RVI values near 0 indicate barren landscapes, while larger values indicate vegetated landscapes.
—The normalized difference between co- and cross-polarized backscatter. Lower RFDI values (less than 0.3) indicate a denser forest. Moderate RFDI values (between 0.4 and 0.6) correspond to degraded forests. Higher RFDI values (greater than 0.6) indicate deforested landscapes.
—The normalized difference of co-polarized backscatter. Canopies dominated with vertical structures will have CSI values near -1, while those dominated with horizontal structures will have CSI values near 1.