Add to ORKGThis study has been carried out among the project "Application of remote sensing and other space technology to hydrology and water resources (ID 5281)". This poster presents a new methodology for the calibration of distributed hydrological models at basin scale by constraining an internal model variable, the pixel-scale equilibrium temperature. Soil hydraulic and vegetation parameters are then calibrated in each pixel of the domain according to the comparison between observed and simulated land surface temperature minimizing the differences. The model algorithm solves the system of energy and mass balances in terms of a representative equilibrium temperature (RET) that is the land surface temperature that closes the energy balance equation ...
Most ecosystems and crops experience water stress in arid and semiarid areas of the Inner Mongolia g...
Conceptual hydrological models are preferable for real-Time flood forecasting, among which the Xin'a...
Thermal-infrared remote sensing of land surface temperature provides valuable information for quanti...
This study proposes a new methodology for the calibration of distributed hydrological models at basi...
This study shows the feasibility of the combined use of multi-satellite data and an energy-water bal...
This study shows the feasibility of the combined use of multi-satellite data and an energy–water bal...
A distributed hydrological energy-water-balance model (FEST-EWB) is calibrated over the Heihe Basin,...
AbstractDistributed hydrological models of energy and mass balance usually need in input many soil a...
Application of hydrological models for water resources management at large continental river basins ...
The main objective of the project "Application of remote sensing and other space technology to hydro...
Calculation of actual evapotranspiration (AET) is of vital importance for the study of climate chang...
Reliably and accurately quantifying evapotranspiration (ET) in a spatial and temporal domain is impo...
Understanding the spatial and temporal variations of evapotranspiration (ET) is vital for water reso...
Full process description and distributed hydrological models are very useful tools in hydrology as t...
Most ecosystems and crops experience water stress in arid and semiarid areas of the Inner Mongolia g...
Conceptual hydrological models are preferable for real-Time flood forecasting, among which the Xin'a...
Thermal-infrared remote sensing of land surface temperature provides valuable information for quanti...
This study proposes a new methodology for the calibration of distributed hydrological models at basi...
This study shows the feasibility of the combined use of multi-satellite data and an energy-water bal...
This study shows the feasibility of the combined use of multi-satellite data and an energy–water bal...
A distributed hydrological energy-water-balance model (FEST-EWB) is calibrated over the Heihe Basin,...
AbstractDistributed hydrological models of energy and mass balance usually need in input many soil a...
Application of hydrological models for water resources management at large continental river basins ...
The main objective of the project "Application of remote sensing and other space technology to hydro...
Calculation of actual evapotranspiration (AET) is of vital importance for the study of climate chang...
Reliably and accurately quantifying evapotranspiration (ET) in a spatial and temporal domain is impo...
Understanding the spatial and temporal variations of evapotranspiration (ET) is vital for water reso...
Full process description and distributed hydrological models are very useful tools in hydrology as t...
Most ecosystems and crops experience water stress in arid and semiarid areas of the Inner Mongolia g...
Conceptual hydrological models are preferable for real-Time flood forecasting, among which the Xin'a...
Thermal-infrared remote sensing of land surface temperature provides valuable information for quanti...