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Sep 17, 2019
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Gaëlle USSEGLIO
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# SARRobustInterferogram
Estimates robust interferogram with flatenning and averaging.
## Description
This application estimates the flatenning and averaging interferogram between two SAR images (Master and Coregistrated Slave).
## Parameters
**Input SAR Slave image (Coregistrated image)**
`-incoregistratedslave image`
*Mandatory*
<br
/>
Input SAR Slave image (Coregistrated image).
**Input SAR Slave image (Metadata)**
`-insarslave image`
*Mandatory*
<br
/>
Input SAR Slave image (Metadata).
**Input SAR Master image**
`-insarmaster image`
*Mandatory*
<br
/>
Input SAR Master image.
**Input DEM (for metadata only)**
`-indem image`
<br
/>
Input DEM (for metadata only).
**Input deformation grid**
`-ingrid image`
*Mandatory*
<br
/>
Input deformation grid.
**Input Cartesian Mean Master image**
`-incartmeanmaster image`
*Mandatory*
<br
/>
Input Cartesian Mean Master image.
**Grid Step for range dimension into SLC geometry**
`-gridsteprange int`
*Default value: 150*
<br
/>
Grid Step for range dimension into SLC geometry.
**Grid Step for azimut dimension into SLC geometry**
`-gridstepazimut int`
*Default value: 150*
<br
/>
Grid Step for azimut dimension into SLC geometry.
**ML factor on range**
`-mlran int`
*Default value: 3*
<br
/>
ML factor on range.
**ML factor on azimut**
`-mlazi int`
*Default value: 3*
<br
/>
ML factor on azimut.
**Margin on distance for averaging**
`-marginran int`
*Default value: 1*
<br
/>
Margin on distance for averaging
**Margin on azimut for averaging**
`-marginazi int`
*Default value: 1*
<br
/>
Margin on azimut for averaging
**Gain to apply for amplitude estimation**
`-gain float`
*Default value: 0.1*
<br
/>
Gain to apply for amplitude estimation
**Build interferogram into ortho geometry**
`-ortho bool`
*Default value: false*
<br
/>
If true, then build interferogram into ortho geometry.
**Output interferogram (ML geometry)**
`-out image [dtype]`
*Mandatory*
<br
/>
Output interferogram (ML geometry).
**Interferogram into ortho geometry**
`-outopt image [dtype]`
<br
/>
Output Vector Image : Interferogram into ortho geometry.
**Available RAM (MB)**
`-ram int`
*Default value: 256*
<br
/>
Available memory for processing (in MB).
## Examples
From the command-line:
```
otbcli_SARRobustInterferogram -insarslave s1b-s4-slc-vv-20160929t014610-20160929t014634-002277-003d71-002.tiff -incoregistratedslave s1b-s4-slc-vv-20160929t014610-20160929t014634-002277-003d71-002_coregistrated.tiff -insarmaster s1a-s4-slc-vv-20160818t014650-20160818t014715-012648-013db1-002_SLC.tiff -indem S21E055.hgt -incartmeanmaster CartesianMaster.tiff -ingrid ./FineDeformation.tiff -gain 0.1 -out s1b-s1a-s4-RobustInterferogram.tiff
```
From Python:
```
import otbApplication
app = otbApplication.Registry.CreateApplication("SARRobustInterferogram")
app.SetParameterString("insarslave", "s1b-s4-slc-vv-20160929t014610-20160929t014634-002277-003d71-002.tiff")
app.SetParameterString("incoregistratedslave", "s1b-s4-slc-vv-20160929t014610-20160929t014634-002277-003d71-002_coregistrated.tiff")
app.SetParameterString("insarmaster", "s1a-s4-slc-vv-20160818t014650-20160818t014715-012648-013db1-002_SLC.tiff")
app.SetParameterString("indem", "S21E055.hgt")
app.SetParameterString("incartmeanmaster", "CartesianMaster.tiff")
app.SetParameterString("ingrid", "./FineDeformation.tiff")
app.SetParameterFloat("gain", 0.1)
app.SetParameterString("out", "s1b-s1a-s4-RobustInterferogram.tiff")
app.ExecuteAndWriteOutput()
```
## Limitations
Only Sentinel 1 products are supported for now.
