Presentation
P51 - Tuning Atmospheric Turbulence Parameters with Machine Learning Surrogates
Presenter
DescriptionParameterizations of subgrid-scale (SGS) processes, like cloud microphysics, radiation, or turbulence, cause considerable uncertainty in numerical climate and weather models at various spatiotemporal scales. Tuning the involved model parameters is challenging, given the immense computational cost of model evaluations, and the reliance on empirical judgement. The transition of numerical weather prediction to convective scales (spatial resolutions of hundreds of meters) is accompanied by new data assimilation methods including parameter estimation. However, their performance is limited by either simplified model representations or repeated model evaluations. For more objective calibration, using iterative Bayesian methods (MCMC algorithms), fast and accurate model surrogates are needed. The recent advances of data-driven full-model emulators, that avoid explicit SGS modeling, motivates the extension of such models to capture the effects of SGS parameters. Here, we focus on turbulence parameterizations in large-eddy simulations (LES) with resolutions of tens of meters. In order to accurately represent turbulence, emulators of LES simulations have to capture both the variability of the resolved turbulent motion (probabilistic/ensemble forecast) and its mean state. To this end, we compare extensions of deterministic forward emulators, such as neural operators, for probabilistic forecasting of idealized atmospheric test cases, in order to assist model calibration.
TimeTuesday, June 410:02 - 10:03 CEST
LocationHG F 30 Audi Max
Session Chair
Event Type
Poster
