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to transform the way environmental and social data are integrated into fisheries management by combining advanced ocean forecasting, species-specific modeling, and social science to develop adaptive strategies
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fundamental research Developing compound flooding model with coverage of coastal land, estuaries, and deep ocean. Conducting fundamental research by integrating long-term observational data and high-resolution
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numerical models. Key investigation areas are the Northern Sea, the Baltic Sea, and the Mediterranean coastal regions. Active participation in the activities of the subcluster (SC) “ROOTS of Socio
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ecology & physiology, generative models, artificial intelligence-based image super-resolution, and three-dimensional reconstruction. The scholarship is full-time for two years with a start date of February
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the LAMP group at the Computer Vision Center (CVC), in Barcelona, Spain. The position is for 2-3 years and linked to the project “Foundations for Adaptive and Generalizable Deep Learning” (EXPLORA
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contributions to sea level rise with improved accuracy. You will have a passion for Antarctica and quantitative skills that include programming and machine-learning or numerical ice sheet modelling. As the
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journey with the Deep-C project, funded by the European Union's prestigious ERC Starting Grant. Tackle climate change head-on by decoding the mysteries of calcium carbonate (CaCO3) dissolution in deep-sea
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modeling light-matter interactions, designing photonic devices, and employing optimization and inverse design approaches. Excellent communication skills and ability to work effectively independently and in a
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Physics or Materials Science. Experience on numerically modeling light-matter interactions, designing photonic devices, and employing optimization and inverse design approaches. Experience in project
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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | 3 months ago
. Description: Ocean worlds such as Europa, Enceladus, Titan and Ceres are exciting, potentially habitable worlds in our own solar system. A large mass fraction of these bodies could be composed of organic matter