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Radiative Transfer Model Comparison with Satellite Observations over CEOS Calibration Site Libya-4
by
Govaerts, Yves
, Nollet, Yvan
, Leroy, Vincent
in
Aerosols
/ Atmosphere
/ Atmospheric models
/ benchmarking
/ Calibration
/ Comparative analysis
/ Data assimilation
/ Environmental aspects
/ Meteorological satellites
/ Microwave imagery
/ Modelling
/ Monochromatic radiation
/ Numerical analysis
/ Optical properties
/ Radiation
/ Radiative transfer
/ radiative transfer model
/ Radiative transfer models
/ Radiometers
/ Satellite imaging
/ Satellite observation
/ Satellites
/ Simulation
/ Spectral sensitivity
/ vicarious calibration
2022
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Radiative Transfer Model Comparison with Satellite Observations over CEOS Calibration Site Libya-4
by
Govaerts, Yves
, Nollet, Yvan
, Leroy, Vincent
in
Aerosols
/ Atmosphere
/ Atmospheric models
/ benchmarking
/ Calibration
/ Comparative analysis
/ Data assimilation
/ Environmental aspects
/ Meteorological satellites
/ Microwave imagery
/ Modelling
/ Monochromatic radiation
/ Numerical analysis
/ Optical properties
/ Radiation
/ Radiative transfer
/ radiative transfer model
/ Radiative transfer models
/ Radiometers
/ Satellite imaging
/ Satellite observation
/ Satellites
/ Simulation
/ Spectral sensitivity
/ vicarious calibration
2022
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Radiative Transfer Model Comparison with Satellite Observations over CEOS Calibration Site Libya-4
by
Govaerts, Yves
, Nollet, Yvan
, Leroy, Vincent
in
Aerosols
/ Atmosphere
/ Atmospheric models
/ benchmarking
/ Calibration
/ Comparative analysis
/ Data assimilation
/ Environmental aspects
/ Meteorological satellites
/ Microwave imagery
/ Modelling
/ Monochromatic radiation
/ Numerical analysis
/ Optical properties
/ Radiation
/ Radiative transfer
/ radiative transfer model
/ Radiative transfer models
/ Radiometers
/ Satellite imaging
/ Satellite observation
/ Satellites
/ Simulation
/ Spectral sensitivity
/ vicarious calibration
2022
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Radiative Transfer Model Comparison with Satellite Observations over CEOS Calibration Site Libya-4
Journal Article
Radiative Transfer Model Comparison with Satellite Observations over CEOS Calibration Site Libya-4
2022
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Overview
Radiative transfer models of the Earth’s atmosphere play a critical role in supporting Earth Observation applications such as vicarious calibration. In the solar reflective spectral domain, these models usually account for the scattering and absorption processes in the atmosphere and the underlying surface as well as the radiative coupling between these two media. A range of models is available to the scientific community with built-in capabilities making them easy to operate by a large number of users. These models are usually benchmarked in idealised but often unrealistic conditions such as monochromatic radiation reflected by a Lambertian surface. Four different 1D radiative transfer models are compared in actual usage conditions corresponding to the simulation of satellite observations. Observations acquired by six different space-borne radiometers over the pseudo-invariant calibration site Libya-4 are used to define these conditions. The differences between the models typically vary between 0.5 and 3.5% depending on the spectral region and the shape of the sensor spectral response.
Publisher
MDPI AG
Subject
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