you define the UTM zone in the projection step, usually in Range Doppler Terrain correction.
Generally you take the zone with the larger coverage in your scene.
Yes that is work perfect.
I build the xml not using the snap. where I get information to get zone?
I would first build a graph in SNAP then export it as an XML. Then you see how the parameters are compoed.
Do all the processing in BEAM-DIMAP and export to Geotiff in a separate step only after the processing is done. Not doing this can cause strange problems.
How to processing data eliminate the bad data on the both side/top/bottom?
I did by using subset, but that is manual, I would like to automate.
Hi !
Out of all the available bands (real (i) and imaginary (q) parts and a virtual intensity) and subswaths(IW1,IW2,IW3) in level-1 SLC which one should i use for calibration in SNAP for getting backscatter data and can you tell step by step process for getting backscatter data .
Please have a look here:
Hello ABraun,
been reading that post, can you please specify on opening the .img file of the BEAM-DIMAP folder? Where is this .img file located? I see various .hdr files etc, but no .img.
Best,
Liten
depending on your Windows configuration, the extension *.img is not shown. It is the file without any extension then. But to go sure you can display all file extensions with this option:
Source: https://www.howtogeek.com/205086/beginner-how-to-make-windows-show-file-extensions/
Hello ABraun,
Thanks for replying. I will elaborate on my question: On an answer above, in this thread, you mentioned that instead of exporting a raster in GeoTIFF in order to open it in a GIS, one can simply open the .img file of the BEAM-DIMAP folder. (I assume the BEAM-DIMAP folder is inside the .SAFE folder) The file types I see in the .SAFE folder of an S-1 product are: XML, PDF, SAFE, XSD, PNG, KML, HTML, TIFF. So this is my question: Which is the file you are referring to in the post (the .img) , because I would like to try importing it into a GIS, so far I export GeoTIFFs and want to see if your proposed method is more efficient.
Thank you in advance,
Liten
now I understand. Before you open Sentinel-1 data in any GIS you need to pre-process it. It is neither calibrated nor projected in the .SAFE format and cannot be used right away. For GRD products, the minimum steps are listed here: Radiometric & Geometric Correction Workflow
Once you processed your data, it will be written in a BEAM DIMAP format. This is how SNAP handles the raster and metadata of the product. It consists of a *.dim file and a *.data folder. In the data folder, there are hdr files and img files and the latter can be opened in QGIS. But you need to terrain corrected data for that.
This makes sense. Will have a look at it. Thanks for the input 
Liten
Is possible to express the real (i) and imaginary (q) parts of a SLC image with Snap ?
Yes, in most cases. Can you please specify your question? What data you use, for example.
i use SLC images from Sentinel-1 for deformation maping and i want to display the real and imaginary part of the SLC image. I try this with the band math but i not sure that is correct
i and q are already stored as bands, so I see no need to use the band maths for this. Simply double click the bands to display them.
Beside the display of i,q , is any way with band maths to see the real and imaginary part of the complex of SLC image ?
sorry, I don’t understand what you mean.
sorry for my english , i try with band math to display the measure and phase of the complex imaging(number)
the Band Maths allow to use the information inside the bands i and q as variables in a map algebra manner (pixel by pixel).
If you simply want to retrieve the values at single pixels, you can use the Pixel Info tab which shows the values of opened bands under the mouse cursor
Or you use the Pin Manager to set pins at selected pixels and extract the values to a table: https://www.youtube.com/watch?v=5znAQH6vrLs
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