There is a growing interest in developing stochastic schemes for the description of processes that are poorly represented in atmospheric and climate models, in order to increase their variability and reduce the impact of model errors. The use of such noise could however have adverse effects by modifying in undesired ways a certain number of moments of their probability distributions. In this work, the impact of developing a stochastic scheme (based on stochastic averaging) for the ocean is explored in the context of a low-order coupled (deterministic) ocean-atmosphere system. After briefly analysing its variability, its ability in predicting the oceanic flow generated by the coupled system is investigated. Different phases in the error dyna...
How to design a reliable ensemble prediction strategy with considering the major uncertainties of a ...
The last decade has seen the success of stochastic parameterizations in short-term, medium-range and...
The investigation of the coupled atmosphere-ocean system is not only scientifically challenging but ...
Stochastic parametrization provides a methodology for representing model uncertainty in ensemble for...
The predictability and variability of a coupled ocean-atmosphere model has been investigated by exam...
htmlabstractIntroduction The behavior of the atmosphere, oceans, and climate is intrinsically unc...
International audienceWe investigate the predictability properties of the ocean dynamics using an en...
For simple analysis of stochastic climate models the ocean is often forced with a statistical atmosp...
This dissertation discusses the predictability of the atmosphere-ocean climate system on interannual...
A shallow-water model was used to understand model error induced by non-Gaussian wind uncertainty. A...
Representing model uncertainty is important for both numerical weather and climate prediction. Stoch...
We investigate the predictability properties of the ocean dynamics using an ensemble of short-term n...
The finite resolution of general circulation models of the coupled atmosphere-ocean system and the e...
How to design a reliable ensemble prediction strategy with considering the major uncertainties of a ...
The last decade has seen the success of stochastic parameterizations in short-term, medium-range and...
The investigation of the coupled atmosphere-ocean system is not only scientifically challenging but ...
Stochastic parametrization provides a methodology for representing model uncertainty in ensemble for...
The predictability and variability of a coupled ocean-atmosphere model has been investigated by exam...
htmlabstractIntroduction The behavior of the atmosphere, oceans, and climate is intrinsically unc...
International audienceWe investigate the predictability properties of the ocean dynamics using an en...
For simple analysis of stochastic climate models the ocean is often forced with a statistical atmosp...
This dissertation discusses the predictability of the atmosphere-ocean climate system on interannual...
A shallow-water model was used to understand model error induced by non-Gaussian wind uncertainty. A...
Representing model uncertainty is important for both numerical weather and climate prediction. Stoch...
We investigate the predictability properties of the ocean dynamics using an ensemble of short-term n...
The finite resolution of general circulation models of the coupled atmosphere-ocean system and the e...
How to design a reliable ensemble prediction strategy with considering the major uncertainties of a ...
The last decade has seen the success of stochastic parameterizations in short-term, medium-range and...
The investigation of the coupled atmosphere-ocean system is not only scientifically challenging but ...