Remote Sensing of Evapotranspiration (ET)
Gowda, Prasanna||Wagle, Pradeep
Remote Sensing of Evapotranspiration (ET)
English[eng]
Eddy-covariance||surface energy balance model||evapotranspiration||Oklahoma Mesonet||Chi river basin||SADFAET||a stratification method||ecosystem management||process-based model||heterogeneous conditions||land surface temperature||ETMonitor||model||latent heat flux||multi-source||water resources management||remote sensing||ET||fusion||Google Earth Engine||water stress||component temperature decomposition||data fusion||Mun river basin||Murrumbidgee River catchment||remote-sensing||Thailand||uncertainty||field-scale||partition||land surface model||two-source energy balance model||Surface Energy Balance System||China||evapotranspiration partitioning||yield||calibration||unmixing-based method||Landsat 8||eddy covariance observations||METRIC||MODIS||surface energy balance algorithm for land (SEBAL)||West Africa||MPDI-integrated SEBS||STARFM||multi-source satellite data
Remote Sensing of Evapotranspiration (ET)
English[eng]
Eddy-covariance||surface energy balance model||evapotranspiration||Oklahoma Mesonet||Chi river basin||SADFAET||a stratification method||ecosystem management||process-based model||heterogeneous conditions||land surface temperature||ETMonitor||model||latent heat flux||multi-source||water resources management||remote sensing||ET||fusion||Google Earth Engine||water stress||component temperature decomposition||data fusion||Mun river basin||Murrumbidgee River catchment||remote-sensing||Thailand||uncertainty||field-scale||partition||land surface model||two-source energy balance model||Surface Energy Balance System||China||evapotranspiration partitioning||yield||calibration||unmixing-based method||Landsat 8||eddy covariance observations||METRIC||MODIS||surface energy balance algorithm for land (SEBAL)||West Africa||MPDI-integrated SEBS||STARFM||multi-source satellite data