International audienceRadiative transfer calculations in atmospheric models are computationally expensive, even if based on simplifications such as the ?-two-stream approximation. In most weather prediction models these parameterisation schemes are therefore called infrequently, accepting additional model error due to the persistence assumption between calls. This paper presents two so-called adaptive parameterisation schemes for radiative transfer in a limited area model: a perturbation scheme that exploits temporal correlations and a local-search scheme that mainly takes advantage of spatial correlations. Utilising these correlations and with similar computational resources, the schemes are able to predict the surface heating rates more a...
This paper presents a radiative transfer model that has been developed to accurately predict the atm...
The last decade has seen the success of stochastic parameterizations in short-term, medium-range and...
The research network “Basic Concepts for Convection Parameterization in Weather Forecast and Climate...
International audienceRadiative transfer calculations in atmospheric models are computationally expe...
Radiative transfer is sufficiently well understood that its parameterization in atmospheric models i...
The demands of accurate predictions of radiative transfer for climate applications are well-document...
The radiative transfer cannot be explicitly resolved in the atmospheric models for two reasons: i) a...
The high computational cost of calculating the radiative heating rates in numerical weather predicti...
International audienceThe assimilation of Special Sensor Microwave Imager (SSM/I) data into the Meso...
Accurate climate and weather simulations must account for all relevant physical processes and their ...
A wide range of approaches for radiative transfer computations leads to several parameterizations. D...
The demands of accurate predictions of radiative transfer for climate applications are well-document...
In numerical weather prediction (NWP) models, physical parameterization schemes are the most computa...
International audienceIt is shown that a high-resolution short-wave (SW) heating rate parameterizati...
Many numerical models for weather prediction and climate studies are run at resolutions that are too...
This paper presents a radiative transfer model that has been developed to accurately predict the atm...
The last decade has seen the success of stochastic parameterizations in short-term, medium-range and...
The research network “Basic Concepts for Convection Parameterization in Weather Forecast and Climate...
International audienceRadiative transfer calculations in atmospheric models are computationally expe...
Radiative transfer is sufficiently well understood that its parameterization in atmospheric models i...
The demands of accurate predictions of radiative transfer for climate applications are well-document...
The radiative transfer cannot be explicitly resolved in the atmospheric models for two reasons: i) a...
The high computational cost of calculating the radiative heating rates in numerical weather predicti...
International audienceThe assimilation of Special Sensor Microwave Imager (SSM/I) data into the Meso...
Accurate climate and weather simulations must account for all relevant physical processes and their ...
A wide range of approaches for radiative transfer computations leads to several parameterizations. D...
The demands of accurate predictions of radiative transfer for climate applications are well-document...
In numerical weather prediction (NWP) models, physical parameterization schemes are the most computa...
International audienceIt is shown that a high-resolution short-wave (SW) heating rate parameterizati...
Many numerical models for weather prediction and climate studies are run at resolutions that are too...
This paper presents a radiative transfer model that has been developed to accurately predict the atm...
The last decade has seen the success of stochastic parameterizations in short-term, medium-range and...
The research network “Basic Concepts for Convection Parameterization in Weather Forecast and Climate...