This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atmosphere spectral radiance and its Jacobians with respect to any set of geophysical parameters both for clear and cloudy sky, and presents the software which implements the procedure. The performance of the code has been evaluated with respect to accuracy and speediness through a comparison with a state-of-art line-by-line radiative transfer model. The new code is well suited for nadir viewing satellite and airplane infrared sensors with a sampling rate in the range 0.1–2 cm−1
Infrared (IR) radiometry technology is an important method for characterizing the IR signature of ta...
Atmospheric correction is a necessary step in processing data recorded by spaceborne sensors for clo...
This paper describes a physical-based methodology for the retrieval of geophysical parameters (tempe...
This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atm...
A suite of programs for high resolution infrared atmospheric radiative transfer calculations has bee...
This paper describes an improved, faster, implementation of the σ-IASI model, with a new parameteriz...
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
The radiative transfer code σ-IASI [Amato et al. 2002] consists of a monochromatic radiative transfe...
A suite of programs for high resolution infrared atmospheric radiative transfer modeling has been d...
A line-by-line model for the purpose of proving the influence of the ab- sorption line parr.-eters a...
An intercomparison of three line-by-line (lbl) codes developed independently for atmospheric radiati...
In the context of the development by EUMETSAT of a new generation of meteorological satellites, we h...
The paper describes a new radiative transfer code for the analysis and inversion of high spectral re...
A rapid atmospheric correction method is proposed to be used for visible and near-infrared satellite...
"We describe a method of simulating measurements of atmospheric radiances and brightness temperature...
Infrared (IR) radiometry technology is an important method for characterizing the IR signature of ta...
Atmospheric correction is a necessary step in processing data recorded by spaceborne sensors for clo...
This paper describes a physical-based methodology for the retrieval of geophysical parameters (tempe...
This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atm...
A suite of programs for high resolution infrared atmospheric radiative transfer calculations has bee...
This paper describes an improved, faster, implementation of the σ-IASI model, with a new parameteriz...
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
The radiative transfer code σ-IASI [Amato et al. 2002] consists of a monochromatic radiative transfe...
A suite of programs for high resolution infrared atmospheric radiative transfer modeling has been d...
A line-by-line model for the purpose of proving the influence of the ab- sorption line parr.-eters a...
An intercomparison of three line-by-line (lbl) codes developed independently for atmospheric radiati...
In the context of the development by EUMETSAT of a new generation of meteorological satellites, we h...
The paper describes a new radiative transfer code for the analysis and inversion of high spectral re...
A rapid atmospheric correction method is proposed to be used for visible and near-infrared satellite...
"We describe a method of simulating measurements of atmospheric radiances and brightness temperature...
Infrared (IR) radiometry technology is an important method for characterizing the IR signature of ta...
Atmospheric correction is a necessary step in processing data recorded by spaceborne sensors for clo...
This paper describes a physical-based methodology for the retrieval of geophysical parameters (tempe...