the flood mapping using sar data - ecu
TRANSCRIPT
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The flood mapping using SAR data
This handout was created by Yong Wang at East Carolina University,
NC with the support from a USGS/AmericaView/NCView grant
(G18AP00077). The handout is intended to help the rapid analyses of
SAR datasets during the course of a flood event. The handout author nor
the funding agencies are liable for any unanticipated results when the
handout is used.
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Part 1:
Fundamentals in the flooding
mapping using SAR SAR
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Identification of the open water surface
Due to the smooth water surface in general, the SAR backscatter from the surface should be low. The water surface
from rivers/streams or water bodies should be dark on a SAR image.
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Identification of the water under tree canopiesDue to the double-bounced trunk-ground surface interactions in forested areas, an enhanced SAR backscatter is observed
when the forests are flooded. In the inland flooding, the enhance SAR backscattering is typically noted along river/stream
channels or immediate uplands near water bodies. The bright signature helps the delineation of the flooded vs. non-
flooded area. Furthermore, the enhanced SAR backscattering is especially strong or clear on a SAR image with a long
wavelength (such as L-band with a wavelength of 24 cm.)
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Software and SAR data requirements
Data Analysis software: To avoid intellectual property and software licensing issues, the public domain software SNAP©
developed by European Space Agency (ESA) is used in this handout. The SNAP is downloadable at
http://step.esa.int/main/toolboxes/snap/
SAR datasets: in addition to the SAR datasets that a user may have, there are freely downloadable SAR data. In this
handout, the Sentinel-1 SAR data are considered and exampled. For the flooding mapping, the SAR data before a flood
event and another SAR data during or immediate after the flood event are needed. The Sentinel-1 SAR data can be
downloaded at the ESA web site, https://scihub.copernicus.eu/dhus/#/home or the ASF (Alaska Satellite Facility) web site,
https://vertex.daac.asf.alaska.edu/. For a USA user, it is recommended to use the ASF web site because it is fast to
download the data.
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A computer
This is the computer used for this handout.
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End of Part 1
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This slide is deliberately empty.
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Part 2:
Analyzing the Sentinel-1 ground
range detected (GRD) data using
the SNAP© software.
The 2018 Wilmington NC flood is exampled.
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The current Sentinel-1 GRD data
are not readily usable without
several steps of data processing.
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The interface of SNAP© software
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1. This is the default interface when you open the SNAP
software the first time.
2. There are many layers and subwindows. The software
remembers the settings when you exit. Click “Windows/Reset
Windows” to get the default settings.
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Load the data (without unzipping the file): drag and drop the zipped file into Product Explorer dialog box。Then, open the Bands folder and double-click each band (one at a time) to view the amplitude and intensity data.
The Intensity_VV is shown as an example
Wilmington, NC
The SAR data were
acquired along an
ascending orbit
Click to open
the file
folders
Double click to
open a bandClick World View
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Extract the area of interest (AOI)
• In most cases, one considers the AOI. Then, the subset of the SAR is next.
Here, the Wilmington area, NC is extracted as an example.
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Load the data (without unzipping the file): drag and drop the zipped file into “Product Explorer” dialog box。Then, open the “Bands” folder and double-click each band (one at a time) to view the amplitude and intensity data.
The Intensity_VV is shown as an example
Wilmington, NC
The SAR data were
acquired along an
ascending orbit
Right-click inside the viewer to open
the drop down menu. Select Spatial
Subset from View… (next slide)
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Extract the area of interest (AOI)
Click OK to subset
Hint: You can run this couple
of times until your AOI is
correctly extracted.
Since you are using the data
before the flood and the data
during or after the flood, it is
recommended that you extract
the AOI as large as possible.
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The AOI of the Wilmington area, NC
The Intensity_VV subimage is shown as an example
Wilmington, NC
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• ESA delivers SAR data once acquired. Even though the “Orbit state
vectors” are included in the zipped data file downloaded, ESA reprocesses
the orbit state vectors with the high level of accuracy. The time lapse is
about 20 days. Thus, the orbit state vectors should be re-downloaded and
updated. This is especially true when the InSAR analysis is conducted.
• However, two possible situations that you may not able to download and
use the “Orbit state vectors” if• the Internet connection is not available or
• your data are too new to have the revised “Orbit state vectors” available at• https://qc.sentinel1.eo.esa.int/aux_poeorb/?page=1
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When I was working on this handout on 5 April 2019, the POD Precise Orbit Ephemerides
[AUX_POEORB] were available for data collected on 17 March 2019 or early.
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Click “Radar/Apply Orbit File” to open Apply Orbit File dialog box (next slide)
Wilmington, NC
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Make the selections as shown and save the files to where you want to save. Make sure that the
subimage is used. (wilmington is used as an example.)
Notes: The default settings are to use the
new orbit file. Thus, check this option if
you want to run this procedure without
the update of the orbit parameters or you
do not have the Internet connection.
Click Run to proceed
With or without the revised orbit state vector, the program will run and create output.
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The Intensity_VV subimage with the revised orbit data
Wilmington, NC
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Click “Radar/Radiometric/Calibrate” to open its dialog box. Accept the defaults.
Open “Processing Parameters” and make selections. Then click “Run” to proceed.
Once completed, click “Close” to go to next step.
Make sure that the subimage is used.
beta0 only!
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The beta0_VV subimage
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Click “Radar/Radiometric/Radiometric Terrain Flattening” to open its dialog box. In this process, the topographic effect on the
SAR image (layover and foreshortening) will be removed. Accept the defaults. Open “Processing Parameters” and select both
bands. Then click “Run” to proceed. Once completed, click “Close” to go to next step.
Make sure that the subimage is used.
Note: You need to get online for this step.
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The gamma0_VV subimage after the radiometric terrain flattening
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The gamma0_VH subimage after the radiometric terrain flattening
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Click “Radar/Geometric/Terrain Correction/Range-Doppler Terrain Correction”
to open its dialog box (next slide)
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1. Click Processing Parameters
3. Click to proceed
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2. Make the (minimum) selections
If you are interested in other types of outputs, you can select them.
Select this DEM
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DEM
These were caused due
to no reliable DEM
data over water surface
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Gamma0_VH subimage
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Gamma0_VV subimage (acquired on 19 Sept. 2018). The 2018 flood event was in course.
The bright signature along river/stream channels or water bodies were flooded in addition to the dark signature of
open water surface that is a part of the flooded area as well. Also, see the pre-flood SAR image (next slide).
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Save the folders and files for future use. Collapse the opened folders in the “Product
Explorer” window first. Then from the bottom to top, one-by-one right-click to open
the drop down menu selecting “Save Product” and then “Close Product” (next slide).
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This is the input zipped file. You do not need to save it. Click × to quit the SNAP software
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In SAR data analysis, the conversion from the linear
scale to log scale and vice versa is common.
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Conversion from the linear scale to log scale.
For the intensity data: 10log10(x)
For the amplitude data: 20log10(x).
(The intensity is proportional to the amplitude squared.)
Open the terrain correct image. From the top menu bar, click “Raster/Data Conversion/Linear
to/from dB to open its dialog box. Select Gamma0_VH and Gamma0_VV
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Gamma0_VV subimage acquired on 19 Sept. 2018. The flooded event is during the course.
The data is in log scale or dB
The bright signature along river/stream channels or water bodies were flooded in addition to the dark signature of
open water surface that is a part of the flooded area as well. Also, see the pre-flood SAR image (next slide).
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Create GoogleEarth KMZ file using the log-scaled data.
You can use the linear scale data as well.
Right-click within the viewer window to
open the drop down menu. Select “Export
View as GoogleEarth KMZ and name and
save the file to the folder you prefer.
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The GoogleEarth KMZ file showing the flooded areas and their locations.
Flooded
Flooded
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The SAR data used in this part were
acquired during the course of the 2018
flood event near Wilmington, NC. One
needs to process another pre-flood SAR
data similarly. Thus, the flood mapping
can be done with confidence.
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End of Part 2
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This slide is deliberately empty.
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Part 3:
Flood mapping
An image before the flood event, and another image
during or immediate after the flood event are needed
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Wilmington
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Gamma0_VV subimage acquired on 13 Sept. 2018 (before the 2018 Wilmington flood event).
The data is in linear scale.
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Gamma0_VV subimage acquired on 19 Sept. 2018. The flood event was in course.
The data is in linear scale.
The bright signature along river/stream channels or water bodies were flooded in addition to the dark signature of
open water surface that is a part of the flooded area as well.
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Wilmington
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Gamma0_VV subimage acquired on 13 Sept. 2018 (before the flood event) in log10 scale or dB.
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Gamma0_VV subimage acquired on 19 Sept. 2018. The flooded event was in course.
The data is in log scale or dB.
The bright signature along river/stream channels or water bodies were flooded in addition to the dark signature of
open water surface that is a part of the flooded area as well.
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Create GoogleEarth KMZfile
Right-click within the viewer window to
open the drop down menu. Select “Export
View as GoogleEarth KMZ and name and
save the file to folder you prefer.
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The GoogleEarth KMZ file showing the flooded areas and their locations.
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End of Part 3