Lecture10

Lecture10 - Case Study: Everglades Hydrology from Space...

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Case Study: Everglades Hydrology from Space Research funded by: ational Science Foundation iocomplexity National Science Foundation Biocomplexity 2003-2008 Students: Marcelo Lago, Bernardo Bieler
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CSTARS Center for Southeastern Tropical Advanced Remote Sensing A Satellite Data Reception and Analysis Facility for Environmental Monitoring in the Southeastern US, ulf of Mexico, Caribbean Gulf of Mexico, Caribbean Basin and Equatorial Atlantic Jointly built by: University of Miami, Vexcel Inc., and ViaSat Inc. Sponsored by: NASA and Office of Naval Research
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Coverage Map d Florida, continental US, Mexico, Caribbean Basin and Central America and northern South America and Applications apid data access for time sensitive environmental Rapid data access for time sensitive applications: monitoring storm prediction volcanic eruptions ollution pollution natural hazards change detection homeland security
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Interferometric SAR - InSAR Changes in surface location result detectable phase changes Two or more data acquisition of the same area from nearby in detectable phase changes location (< 1000 m)
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Water Conservation Areas
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ater Control Structures Water Control Structures
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Water level changes & water levels
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Water level changes June - December Interferogram Water level change map
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Diffusion Flow of Surface Water v h Conservation of Mass ) .( hv t onservation f v Conservation of Momentum (Diffusion flow approximation ) ater height H D hv Governing Equation: h Water height H –height above datum D – Transmissivity v – velocity ) .( H D H – out of plane contribution t
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iffusion Flow in the Everglades Diffusion Flow in the Everglades
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198 n = 1.4, 0.8, 0.07, 0.05, 0.01 run90 .hvt s 5A g 251 1 _ 7
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198 n = 1.4, 0.8, 0.07, 0.05, 0.01 run92 .hvt s 5A g 251 1 _ 7 1 _ 9
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198 n = 1.4, 0.8, 0.07, 0.05, 0.01 run94 .hvt s 5A g 251 1 _ 7 1 _ 9 s 10C s 39
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198 n = 1.4, 0.8, 0.07, 0.05, 0.01 run95 .hvt s 5A g 251 1 _ 7 1 _ 9 s 10C s 39
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run96 198 n = 1.4, 0.8, 0.07, 0.05, 0.01 .hvt s 5A g 251 1 _ 7 1 _ 9 _ s 10C s 39
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run97 198 n = 0.03 .hvt s 5A g 251 1 _ 7 1 _ 9 _ s s 10C s 39
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run98 198 n = 1.0 .hvt s 5A g 251 1 _ 7 1 _ 9 _ s s 10C s 39
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run72 204 n = 1.2, 0.62, 0.42, 0.01 .hvt g 30 g 301
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run75 204 n = 1.2, 0.62, 0.42, 0.01 .hvt g 30 g 301 g 251
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run77 204 n = 1, 0.01 .hvt g 30 g 301 g 251
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run101 204 n = 0.03 .hvt g 30 g 301 g 251 g 310 acme 1 acme 2 1 _ 8 s
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run102 204 n = 1.00 .hvt g 30 g 301 g 251 g 310 acme 1 acme 2 1 _ 8 s
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This note was uploaded on 07/09/2011 for the course CWR 5104C taught by Professor Miralles during the Spring '11 term at FIU.

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Lecture10 - Case Study: Everglades Hydrology from Space...

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