Fan, Chenqing | the First Institute of Oceanography, China, People's Republic of | Research on Extraction of ASAR Wave Mode SWH and MWP Based on SVM Regression Model |
Fan, Chun | School of Energy Resources, China University of Geosciences, Beijing, China | Slip rate partitioning along the Dalbute fault zone (Northwest Junggar Basin) constrained by Small Baseline PS-InSAR |
Fan, Jinlong | NSMC, China, People's Republic of | Crop mapping with the Chinese and European satellite data Orchard mapping in Ningxia with the high resolution Chinese satellite data |
Fell, Frank | Informus GmbH, Berlin, Germany | Calibration and Intercalibration of microwave radiometer time series: Status and plans for Dragon-4 |
Feng, Haikuan | National Engineering Research Center for Information Technology in Agriculture, China, People's Republic of | Estimation of winter wheat canopy nitrogen density at different growth stages based on N-PROSAIL model |
Feng, Lang | University College London, United Kingdom | 3D tomographic SAR imaging in densely vegetated mountainous rural areas in China Presenter |
Feng, Liang | National Centre for Earth Observation, School of GeoSciences, University of Edinburgh, Edinburgh,UK | Chinese CO2 Fluxes Inferred From OCO-2 and GOSAT and From In-situ Data During the 2015 El Niño Event Evaluating Space-Based CO2 Observations over China The Atmospheric Carbon Dioxide measurment over China from space |
Ferrari, Erika | politecnico di milano, Italy | Soil hydrologic parameterization for water balance modelling using remote sensing Land Surface Temperature data |
Ferrentino, Emanuele | Università degli Studi di Napoli Parthenope, Italy | Artificial Lake Monitoring Using Multi-polarization And Multi-temporal SAR Data Presenter |
Ferro Famil, Laurent | I.E.T.R -Univ Rennes 1, France | Terrain Correction Methods For Multi-dimensional SAR Data Applied To Forest Above Ground Biomass Estimation |
Fornaro, Gianfranco | Istituto per il Rilevamento Elettromagnetico dell'Ambiente, CNR, 328 Diocleziano, I-80124 Napoli, | The ESA/MOST Dragon IV project: Detection and Interpretation of Time Evolution of Costal Environments through Integrated DInSAR, GPS and Geophysical Approaches. |