2012 AGU Chapman Conference on Remote Sensing of the ...
2012 AGU Chapman Conference on Remote Sensing of the ...
2012 AGU Chapman Conference on Remote Sensing of the ...
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EM-25EM-26EM-27EM-28EM-29EM-301600h – 1900hSWM-1SWM-2SWM-3SWM-4SWM-5SWM-6SWM-7SWM-8SWM-9SWM-10Ayse Irmak | Requirements for Evapotranspirati<strong>on</strong> at Field-Scale usingLandsat-scale <strong>Remote</strong> <strong>Sensing</strong>-Based Energy Balance in <strong>the</strong> Central Platteand Sand Hills <strong>of</strong> Nebraska, USAThomas C. Moran | Comparing annual evapotranspirati<strong>on</strong> estimatesderived from remote sensing and surface measurement for water-limitedcatchments in CaliforniaWilliam D. Collins | A Comparis<strong>on</strong> <strong>of</strong> <strong>the</strong> Scale Invariance <strong>of</strong> <strong>the</strong> WaterVapor Field Observed by <strong>the</strong> Atmospheric Infrared Sounder to <strong>the</strong> ScaleInvariance <strong>of</strong> In Situ Observati<strong>on</strong>s from a Very Tall TowerMat<strong>the</strong>w F. McCabe | Multi-model regi<strong>on</strong>al scale estimati<strong>on</strong> <strong>of</strong>evapotranspirati<strong>on</strong>Eric Wood | Internal validati<strong>on</strong> <strong>of</strong> a distributed hydrological modelthrough land surface temperature from remote sensingMat<strong>the</strong>w F. McCabe | Intercomparis<strong>on</strong> <strong>of</strong> flux measurement approaches:eddy covariance, scintillometers and remote sensing retrievals over agrasslandPoster Sessi<strong>on</strong> I - Surface Water StorageNaupaka V - VIIBrian Brisco | Wetland Coherence for Water Level Estimati<strong>on</strong>Ernesto Rodriguez | The Measurement <strong>of</strong> Reach-Averaged Discharge by<strong>the</strong> SWOT Missi<strong>on</strong>Ernesto Rodriguez | The Estimati<strong>on</strong> <strong>of</strong> Reach-Averaged Bathymetry andFricti<strong>on</strong> Coefficient from SWOT DataDelwyn Moller | Initial Evaluati<strong>on</strong>s <strong>of</strong> SWOT Water Surface Elevati<strong>on</strong>Retrievals Using a High-Fidelity Dynamic SimulatorDelwyn Moller | Topographic Mapping <strong>of</strong> <strong>the</strong> Water Surface usingAirborne Millimeter-Wave InterferometryAmanda C. Hall | Observing <strong>the</strong> Amaz<strong>on</strong> Floodplain with <strong>Remote</strong> <strong>Sensing</strong>:ICESat, Radar Altimetry and DGPSC. K. Shum | SURFACE FLOOD AND SMALL WATER BODYMONITORING USING RADAR ALTIMETRY: PROSPECTS FOR SWOTMat<strong>the</strong>w D. Wils<strong>on</strong> | The Surface Water and Ocean Topography SatelliteMissi<strong>on</strong> – An Assessment <strong>of</strong> Swath Altimetry Measurements <strong>of</strong> RiverHydrodynamicsDaniel Esteban Fernandez | KARIN: THE KA-BAND RADARINTERFEROMER FOR THE SWOT MISSIONMichael T. Durand | Optimal interpolati<strong>on</strong> <strong>of</strong> spaceborne heightmeasurements <strong>of</strong> river height to support SWOT discharge algorithms11