SARCorrectionGrid

Computes SAR correction grid.

Description

This application creates a deformation grid by correcting the DEM grid with correlation grid. The output grid is a VectorImage composed of two values : shift in range and shift in azimut. The inputs of this application are also vector image with three components. This application can directly take the projectd DEM.

Parameters

Input DEM grid (Vector Image) -indemgrid image Mandatory
Input DEM Grid Vector Image (Shift_ran, Shift_azi, NbDEMPts for contribution).

Input Correlation grid (Vector Image) -incorgrid image Mandatory
Input orrelation Grid Vector Image (Shift_ran, Shift_azi, Correlation_rate).

Output Correction grid (Vector Image) -out image [dtype] Mandatory
Output Correction Grid Vector Image (Shift_ran, Shift_azi).

Threshold for correlation rate -threshold float Default value: 0.3
Threshold for correlation rate.

Maximum difference between input grid values and mean values -gap float Default value: 0.7
Maximum difference between input grid values and mean values.

Give an advantage to DEM or Correlation Grid -advantage string
Give an advantage to DEM or Correlation Grid.

Available RAM (MB) -ram int Default value: 256
Available memory for processing (in MB).

Examples

From the command-line:

otbcli_SARCorrectionGrid -indemgrid ./demGrid.tiff -incorgrid ./corGridL.tiff -out correctionGrid.tif

From Python:

import otbApplication

app = otbApplication.Registry.CreateApplication("SARCorrectionGrid")

app.SetParameterString("indemgrid", "./demGrid.tiff")
app.SetParameterString("incorgrid", "./corGridL.tiff")
app.SetParameterString("out", "correctionGrid.tif")

app.ExecuteAndWriteOutput()

Limitations

Only Sentinel 1 (IW and StripMap mode) and Cosmo products are supported for now.