The radiative transfer code σ-IASI [Amato et al. 2002] consists of a monochromatic radiative transfer model, which has been designed for the fast computation of spectral radiance and its derivatives (Jacobian) with respect to a given set of geophysical parameters. The forward model σ-IASI has been initially developed in the framework of a long collaboration between UniBas (formerly DIFA (Department of Environmental Engineering and Physics of the University of Basilicata) and EUMETSAT to assist the various developing phases of IASI. The code uses a look-up table for the optical depth. The look-up table is derived from the LBLRTM (Line-by-Line Radiative Transfer Model) model (e.g., the latest version of σ-IASI uses LBLRTM version 12.2). The f...
International audienceThis paper lays down the theoretical bases and the methods used in the Fast Op...
Radiances observed from IASI are compared to calculated ones. Calculated radiances are obtained usin...
IASI (Infrared Atmospheric Sounder Interferometer) is flying on the European MetOp series of weather...
This paper describes an improved, faster, implementation of the σ-IASI model, with a new parameteriz...
In the context of the development by EUMETSAT of a new generation of meteorological satellites, we h...
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atm...
Retrieval products for temperature, water vapour and ozone have been obtained from spectral radiance...
The interaction of clouds with solar and terrestrial radiation is one of the most important topics o...
AbstractLine-by-line (LBL) methods of numerically solving the equations of radiative transfer can be...
AbstractThe Reference Forward Model (RFM) is a general purpose line-by-line radiative transfer model...
International audienceThis paper lays down the theoretical bases and the methods used in the Fast Op...
Radiances observed from IASI are compared to calculated ones. Calculated radiances are obtained usin...
IASI (Infrared Atmospheric Sounder Interferometer) is flying on the European MetOp series of weather...
This paper describes an improved, faster, implementation of the σ-IASI model, with a new parameteriz...
In the context of the development by EUMETSAT of a new generation of meteorological satellites, we h...
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atm...
Retrieval products for temperature, water vapour and ozone have been obtained from spectral radiance...
The interaction of clouds with solar and terrestrial radiation is one of the most important topics o...
AbstractLine-by-line (LBL) methods of numerically solving the equations of radiative transfer can be...
AbstractThe Reference Forward Model (RFM) is a general purpose line-by-line radiative transfer model...
International audienceThis paper lays down the theoretical bases and the methods used in the Fast Op...
Radiances observed from IASI are compared to calculated ones. Calculated radiances are obtained usin...
IASI (Infrared Atmospheric Sounder Interferometer) is flying on the European MetOp series of weather...