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forms suitable for system-level reasoning, and ensuring consistency between detailed simulations, experimental data, and higher-level system models. The researcher is expected to contribute
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-based methods are particularly well-suited to bridging the molecular and experimental scales and will be central to this effort. The research will be performed in the Theory and Modelling group (https
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-level reasoning, and ensuring consistency between detailed simulations, experimental data, and higher-level system models. The researcher is expected to contribute to methodological advances in MBSE
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information of at least two academic references. Copy of the doctoral degree certificate, and any other certificates/grades/documents that should be considered Welcome to apply! Where to apply Website https
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potentially involving techno-economic analysis and AI-driven models for optimizing design and operation. Activities within project management and co-supervision of graduate students are also foreseen
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by protein trapping experiments. Model and simulate nanopore-FET devices. Process and analyse the sensing signals from the devices; model the protein dynamics. The work duties can also include teaching
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development and applications. Background The systems medicine research group at Örebro University (https://www.oru.se/english/research/research-groups/rg/?rdb=g326) is involved in multiple collaborative
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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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develop both theory and concrete tools to design systems that learn, reason, and act in the real world based on a seamless combination of data, mathematical models, and algorithms. Our research integrates
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on processing and analysis of metabolomics and exposomics data, covering both method development and applications. Background The systems medicine research group at Örebro University (https://www.oru.se/english