1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto...
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Transcript of 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto...
![Page 1: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/1.jpg)
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SWOTSWOT
IGARSSJuly 27, 2011
INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT
INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT
Ernesto Rodríguez, JPL/CalTech
Delwyn Moller, Remote Sensing Solution
Xiaoqing Wu, JPL/CalTech
Kostas Andreadis, JPL/CalTech
![Page 2: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/2.jpg)
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IGARSSJuly 27, 2011
Study AreaStudy Area
• ~1000 km reach of the Ohio River basin
• Drains an area of ~220,000 km2
• Topography from National Elevation Dataset (30 m)
• River vector maps from HydroSHEDS
• Channel width and depth from developed power-law relationships
• Explicitly modeled rivers with mean widths at least 50 m
![Page 3: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/3.jpg)
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IGARSSJuly 27, 2011
Hydrodynamic ModelingHydrodynamic Modeling• LISFLOOD-FP raster-based model• 1-D solver for channel flow• 2-D flood spreading model for floodplain flow• Kinematic, Diffusive and Inertial formulations• Requires information on topography, channel
characteristics and boundary inflows• Needed to coarsen spatial resolution to 100 m
SWOT Hydrology Virtual Mission Meeting, Paris, 22 Sep 2010
• Simulation period of 1 month
• Boundary inflows from USGS gauge measurements
![Page 4: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/4.jpg)
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IGARSSJuly 27, 2011
Data from the SWOT Land SimulatorData from the SWOT Land Simulator
Along-Track
Ran
ge
The SWOT simulator produces data with the correct signal to noise ratio, layover and geometric decorrelation scattering properties. Notice for SWOT the land SNR is low, while surface water stands out.
![Page 5: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/5.jpg)
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IGARSSJuly 27, 2011
Challenges for near-nadir interferometry over land
Challenges for near-nadir interferometry over land
• Topographic layover and low land SNR makes conventional phase unwrapping approaches unfeasible• Notice that fringes are well defined over the water, since the water is flat and quite bright at nadir incidence.• The signal from topography may contaminate the signal over the water (see next slide)
![Page 6: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/6.jpg)
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IGARSSJuly 27, 2011
Radar Layover and its Effect on Interferometry
Radar Layover and its Effect on Interferometry
€
δΦ=arg 1+PLand
PWater
γ Land
γWater
exp i ΦLand − ΦWater( )[ ] ⎡
⎣ ⎢
⎤
⎦ ⎥
Brightness Ratio (land darker than water)
Correlation Ratio (land less correlated than water)
Volumetric Layover (trees)
Surface Layover
Points on dashed line arrive at the same time
![Page 7: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/7.jpg)
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IGARSSJuly 27, 2011
NASA SWOT Land Processing Approach
NASA SWOT Land Processing Approach
• Processing approach relies on having a fair estimate of topography and water body elevation– Estimate can be derived from a priori data or
previous SWOT passes (to account for dynamics)
• A priori information is used to generate reference interferograms for phase flattening and estimation of layover (to avoid averaging in land)
![Page 8: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/8.jpg)
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Interferogram after phase flattening with reference interferogram
Interferogram after phase flattening with reference interferogram
Noisy interferogram Noisy interferogram after flattening with reference
![Page 9: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/9.jpg)
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Layover region identificationLayover region identification
Noisy interferogram Noisy interferogram after flattening with reference
![Page 10: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/10.jpg)
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Land Processing Flow to GeolocationLand Processing Flow to Geolocation
![Page 11: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/11.jpg)
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Layover maskAll pixels with any layover are red
Layover maskAll pixels with any layover are red
Mid-Swath Near-Swath
![Page 12: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/12.jpg)
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What if we accept pixels whose expected error is < 5 cm?
What if we accept pixels whose expected error is < 5 cm?
![Page 13: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/13.jpg)
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From raw heights to hydrologic variables
From raw heights to hydrologic variables
Discharge
Width Flow Depth(height from bottom)
Slope
Manning’s equation
![Page 14: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/14.jpg)
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Water ClassificationWater Classification
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River Channel MaskRiver Channel Mask
. Pavelsky and L. Smith, “Rivwidth: A software tool for the calculation of river widths from remotely sensed imagery,” IEEE Geoscience and Remote Sensing Letters, vol. 5, no. 1, p. 70, 2008.
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Center Line MaskCenter Line Mask
![Page 17: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/17.jpg)
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Get Center LineGet Center Line
. Pavelsky and L. Smith, “Rivwidth: A software tool for the calculation of river widths from remotely sensed imagery,” IEEE Geoscience and Remote Sensing Letters, vol. 5, no. 1, p. 70, 2008.
![Page 18: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/18.jpg)
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IGARSSJuly 27, 2011
Project to Local CoordinatesProject to Local Coordinates
s
c
• Spline interpolate center line to constant separation points downstream• Use spline to obtain local tangent plane coordinate system at each point
• For each point:-Use KDTree algorithm to find closest centerline point- Project point into local coordinate system to get along and across-track distance
![Page 19: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/19.jpg)
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Measured Noisy ElevationMeasured Noisy Elevation
![Page 20: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/20.jpg)
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Unsmoothed Elevation ErrorsUnsmoothed Elevation Errors
![Page 21: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/21.jpg)
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Height Error vs Downstream DistanceHeight Error vs Downstream Distance
![Page 22: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/22.jpg)
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Height Error vs Downstream Distancewith Downstream Averaging
Height Error vs Downstream Distancewith Downstream Averaging
![Page 23: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/23.jpg)
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IGARSSJuly 27, 2011
Measurement ErrorsDownstream Averaging: 200 m
Measurement ErrorsDownstream Averaging: 200 m
![Page 24: 1-1 SWOT IGARSS July 27, 2011 INTERFEROMETRIC PROCESSING OF FRESH WATER BODIES FOR SWOT Ernesto Rodríguez, JPL/CalTech Delwyn Moller, Remote Sensing Solution.](https://reader035.fdocuments.us/reader035/viewer/2022070401/56649f165503460f94c2d132/html5/thumbnails/24.jpg)
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Measurement ErrorsDownstream Averaging: 1 km
Measurement ErrorsDownstream Averaging: 1 km