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, and curated databases into deep models, enhancing accuracy, interpretability, and robustness. Probing and steering the internal mechanisms of deep models by aligning their representations with human
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, and prior knowledge about the way oil spills and natural phenomena in the ocean can appear given the observed data. The models can build on recent research results in foundational neural network models
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first 2-photon intravital imaging system for immunology. A novel, rapid AAV-mediated technology for generating transgenic mouse models. Comprehensive core facilities for advanced flow cytometry, genomics
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should be used to transform today's linear business models into future business models with the principles of a circular economy, and finally to investigate how such technologies can be integrated in
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properties, and how these are controlled by geological processes, will be essential when developing theoretical rock physics models for shales. At macroscale, these models will be important for evaluating seal
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package that centers on laboratory testing of a newly discovered human genetic knockout model population, as well as data analysis of large-scale registry data comparing mutation carriers to non-carriers
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. Complement experimental work with system-level modeling and simulation to bridge cell-level insights with broader system performance. Plan and conduct experiments using national and European research
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generating transgenic mouse models. Comprehensive core facilities for advanced flow cytometry, genomics, and single-cell sequencing. Responsibilities Perform intravital surgery to implant optical imaging
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be placed on Representation Learning techniques, Transformer-based architectures, Large Language Models (LLMs), Natural Language Processing (NLP), etc. The research will also explore distributed data
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mountain catchments. The goal is to understand long-term changes in runoff regimes and flood hazards by combining climate-driven (glacier-)hydrological modelling with reconstructions of past flood events