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ultra-high resolution atmospheric prediction models for better prediction, understanding, and projection of extreme weather events. The research topics include, but are not limited to: 1) predictability
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Max Planck Institute for the Structure and Dynamics of Matter, Hamburg | Hamburg, Hamburg | Germany | 12 days ago
of multiple timescales. Collectively induced stochastic resonance phenomena on molecular ensembles in optical cavities. Cavity-induced off-equilibrium consequences on chemical reaction rates Develop (ab-initio
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climate change projections.) These methodologies will be utilized to enhance the transparency and interpretability of predictive models dealing with complex climate data. Possible research areas include
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This PhD project offers a unique opportunity to delve into the complexities of free-market systems and sustainability through a novel ensemble prediction model. With a focus on addressing
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Scientist ("Scientist"), working closely with the leads for Precipitation Science and Prediction, Modeling and Data Assimilation, AQPI, and Verification, will foster collaboration, lead research projects, and
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starting: Develop multiphysics models for the complete supply chain of selected heat-sensitive biological products. This includes hygrothermal transport in the ensemble of packed products during cooling
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ultra-high resolution atmospheric prediction models for better prediction, understanding, and projection of extreme weather events. The research topics include, but are not limited to: 1) predictability
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machine learning, generative AI and ensemble integration methods to the datasets, data visualization for interpretability of the models, submit abstracts and papers to conferences and assist in preparing
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combined with modeling experiments or enhanced research in parameterization, AI is accelerating computational processes, improving prediction accuracy, and enabling the creation of extensive model ensembles
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Research Cluster focusing on Predicting Offshore Wind wake interactions for Energy and enviRonment (POWER). Large scale wind farms often consist of hundreds of wind turbines with diameters going up