Modeling the radiative behavior and the energy budget of land surfaces is relevant for many scientific domains such as the study of vegetation functioning with remotely acquired information. DART model (Discrete Anisotropic Radiative Transfer) is developed since 1992. It is one of the most complete 3D models in this domain. It simulates radiative transfer (R.T.) in the optical domain: 3D radiative budget and remote sensing images (i.e., radiance, reflectance, brightness temperature) of vegetation and urban Earth surfaces, for any atmosphere, wavelength, sun/view direction, altitude and spatial resolution. It uses an innovative multispectral approach (flux tracing, exact kernel, discrete ordinate techniques) over the whole optical domain. He...
In optical remote sensing, radiative transfer models applied to Earth landscape and atmosphere allow...
Potential of solar-induced chlorophyll fluorescence (SIF) to track time variable environmental stres...
In optical remote sensing, radiative transfer (R-T) models aim to simulate radiometric measurement o...
Modeling the radiative behavior and the energy budget of land surfaces is relevant for many scientif...
DART EB is a model that is being developed for simulating the 3D (3 dimensional) energy budget of ur...
To better understand the life-essential cycles andprocesses of our planet and to further develop rem...
To better understand the life-essential cycles and processes of our planet and to further develop re...
Satellite and airborne optical sensors are increasingly used by scientists, and policy makers, and m...
In the frame of the H2020 project, URBANFLUXES (http://urbanfluxes.eu/), new modeling is developed ...
[Departement_IRSTEA]Territoires [TR1_IRSTEA]SYNERGIE [Axe_IRSTEA]TETIS-ATTOSInternational audienceSa...
In optical remote sensing, radiative transfer models applied to Earth landscape and atmosphere allow...
Potential of solar-induced chlorophyll fluorescence (SIF) to track time variable environmental stres...
In optical remote sensing, radiative transfer (R-T) models aim to simulate radiometric measurement o...
Modeling the radiative behavior and the energy budget of land surfaces is relevant for many scientif...
DART EB is a model that is being developed for simulating the 3D (3 dimensional) energy budget of ur...
To better understand the life-essential cycles andprocesses of our planet and to further develop rem...
To better understand the life-essential cycles and processes of our planet and to further develop re...
Satellite and airborne optical sensors are increasingly used by scientists, and policy makers, and m...
In the frame of the H2020 project, URBANFLUXES (http://urbanfluxes.eu/), new modeling is developed ...
[Departement_IRSTEA]Territoires [TR1_IRSTEA]SYNERGIE [Axe_IRSTEA]TETIS-ATTOSInternational audienceSa...
In optical remote sensing, radiative transfer models applied to Earth landscape and atmosphere allow...
Potential of solar-induced chlorophyll fluorescence (SIF) to track time variable environmental stres...
In optical remote sensing, radiative transfer (R-T) models aim to simulate radiometric measurement o...