Add to ORKGAccurate radiative transfer (RT) calculations are necessary for many earth-atmosphere applications, from remote sensing retrieval to climate modeling. A Principal Component Analysis (PCA)-based spectral binning method has been shown to provide an order of magnitude increase in computational speed while maintaining an overall accuracy of 0.01% (compared to line-by-line calculations) over narrow spectral bands. In this paper, we have extended the PCA method for RT calculations over the entire shortwave region of the spectrum from 0.3 to 3 microns. The region is divided into 33 spectral fields covering all major gas absorption regimes. We find that the RT performance runtimes are shorter by factors between 10-100, while root mean square errors...
Radiative transfer is computationally expensive. However, it is essential to many applications, in p...
Radiative transfer is computationally expensive. However, it is essential to many applications, in p...
The computational complexity of radiation schemes in NWP models precludes full radiative transfer ca...
Accurate radiative transfer (RT) calculations are necessary for many earth-atmosphere applications, ...
The Principal Component Analysis (PCA)-based fast radiative transfer method has been shown to have a...
In this work, we extend the principal component analysis (PCA)-based approach to accelerate radiativ...
Principal Component Analysis (PCA) is a promising tool for enhancing radiative transfer (RT) perform...
In this work, we extend the principal component analysis (PCA)-based approach to accelerate radiativ...
In this work, we extend the principal component analysis (PCA)-based approach to accelerate radiativ...
The new generation of atmospheric composition sensors such as TROPOMI is capable of providing spectr...
The new generation of atmospheric composition sensors such as TROPOMI is capable of providing spectr...
Application of principal component analysis to high spectral Radiative transfer computation is the r...
The vertical temperature profile of the atmosphere has an influence on the width and intensity of ga...
With the increasing use of satellite and ground-based high-spectral-resolution (HSR) measurements fo...
With the increasing use of satellite and ground-based high-spectral-resolution (HSR) measurements fo...
Radiative transfer is computationally expensive. However, it is essential to many applications, in p...
Radiative transfer is computationally expensive. However, it is essential to many applications, in p...
The computational complexity of radiation schemes in NWP models precludes full radiative transfer ca...
Accurate radiative transfer (RT) calculations are necessary for many earth-atmosphere applications, ...
The Principal Component Analysis (PCA)-based fast radiative transfer method has been shown to have a...
In this work, we extend the principal component analysis (PCA)-based approach to accelerate radiativ...
Principal Component Analysis (PCA) is a promising tool for enhancing radiative transfer (RT) perform...
In this work, we extend the principal component analysis (PCA)-based approach to accelerate radiativ...
In this work, we extend the principal component analysis (PCA)-based approach to accelerate radiativ...
The new generation of atmospheric composition sensors such as TROPOMI is capable of providing spectr...
The new generation of atmospheric composition sensors such as TROPOMI is capable of providing spectr...
Application of principal component analysis to high spectral Radiative transfer computation is the r...
The vertical temperature profile of the atmosphere has an influence on the width and intensity of ga...
With the increasing use of satellite and ground-based high-spectral-resolution (HSR) measurements fo...
With the increasing use of satellite and ground-based high-spectral-resolution (HSR) measurements fo...
Radiative transfer is computationally expensive. However, it is essential to many applications, in p...
Radiative transfer is computationally expensive. However, it is essential to many applications, in p...
The computational complexity of radiation schemes in NWP models precludes full radiative transfer ca...