SARAltAmbig¶
Evaluation of ambiguity height
Description¶
Calculate the angle alpha between ground-master and ground-slave vectors. Calculates the local incidence. The ambiguity heigth is given by: lambda * sin (incidence) / 2 * tg (alpha)
Parameters¶
Input images list (for estimations) -inlist image1 image2...
Mandatory
The list of images to estimate required values (local vecotrs, ambiguity …).
Tartget lat (degree) -lat float
Mandatory
Target Latitude (degree)
Target long (degree) -lon float
Mandatory
Target Longitude (degree)
Target height (m) -height float
Mandatory
Target Height (m)
Output file to store the results -outfile filename [dtype]
Mandatory
Output file to store the results
Activate bistatic Mode -bistatic bool
Default value: false
If true, set the formula in bistatic mode
Available RAM (MB) -ram int
Default value: 256
Available memory for processing (in MB).
Examples¶
From the command-line:
otbcli_SARAltAmbig -inlist s1a-s4-slc-vv-20160818t014650-20160818t014715-012648-013db1-002_SLC.tiff s1a_s6_slc_0180416T195057_vv_cap_verde.tif -lat 10.5 -lon 5.8 -height 45.9 -outfile alt_ambig.log
From Python:
import otbApplication
app = otbApplication.Registry.CreateApplication("SARAltAmbig")
app.SetParameterStringList("inlist", ['s1a-s4-slc-vv-20160818t014650-20160818t014715-012648-013db1-002_SLC.tiff', 's1a_s6_slc_0180416T195057_vv_cap_verde.tif'])
app.SetParameterFloat("lat", 10.5)
app.SetParameterFloat("lon", 5.8)
app.SetParameterFloat("height", 45.9)
app.SetParameterString("outfile", "alt_ambig.log")
app.ExecuteAndWriteOutput()