Add to ORKGInternational audienceExtension of radiative transfer code MOMO and validation. Application to IAOOS project combining ground-based and space observation
International audienceThe results of a comparison exercise of radiative transfer models (RTM) of var...
With the advent of the first satellites for Earth Observation: Landsat-1 in July 1972 and ERS-1 in M...
This paper describes an improved, faster, implementation of the σ-IASI model, with a new parameteriz...
International audienceExtension of radiative transfer code MOMO and validation. Application to IAOOS...
International audience1-D radiative transfer code MOMO (Matrix-Operator Model), has been extended fr...
This paper describes the radiative transfer model (RTM) MOCRA (MOnte Carlo Radiance Analysis), devel...
Radiances observed from IASI are compared to calculated ones. Calculated radiances are obtained usin...
The data are results from radiative transfer simulations from 390 to 1020 nm in 1nm resolution. They...
Radiation is the ultimate source of energy that drives our weather and climate. It is also the funda...
Earth's climate is largely determined by the planet's energy budget, i.e., the balance of incoming a...
The spatial distribution of aerosol and clouds in the atmosphere leads, in a significant number of c...
This thesis describes a new procedure for computing irradiances for the Earth's atmosphere including...
8siWe present EOS, a procedure for determining the outgoing longwave radiation (OLR) and top-of-atmo...
The radiative transfer code σ-IASI [Amato et al. 2002] consists of a monochromatic radiative transfe...
Abstract View references (99) This article describes the latest stable release (version 2.2) of the ...
International audienceThe results of a comparison exercise of radiative transfer models (RTM) of var...
With the advent of the first satellites for Earth Observation: Landsat-1 in July 1972 and ERS-1 in M...
This paper describes an improved, faster, implementation of the σ-IASI model, with a new parameteriz...
International audienceExtension of radiative transfer code MOMO and validation. Application to IAOOS...
International audience1-D radiative transfer code MOMO (Matrix-Operator Model), has been extended fr...
This paper describes the radiative transfer model (RTM) MOCRA (MOnte Carlo Radiance Analysis), devel...
Radiances observed from IASI are compared to calculated ones. Calculated radiances are obtained usin...
The data are results from radiative transfer simulations from 390 to 1020 nm in 1nm resolution. They...
Radiation is the ultimate source of energy that drives our weather and climate. It is also the funda...
Earth's climate is largely determined by the planet's energy budget, i.e., the balance of incoming a...
The spatial distribution of aerosol and clouds in the atmosphere leads, in a significant number of c...
This thesis describes a new procedure for computing irradiances for the Earth's atmosphere including...
8siWe present EOS, a procedure for determining the outgoing longwave radiation (OLR) and top-of-atmo...
The radiative transfer code σ-IASI [Amato et al. 2002] consists of a monochromatic radiative transfe...
Abstract View references (99) This article describes the latest stable release (version 2.2) of the ...
International audienceThe results of a comparison exercise of radiative transfer models (RTM) of var...
With the advent of the first satellites for Earth Observation: Landsat-1 in July 1972 and ERS-1 in M...
This paper describes an improved, faster, implementation of the σ-IASI model, with a new parameteriz...