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in field trials and greenhouse experiments. Results from the experiments will feed into a crop modelling part while harvested seeds will be used for further analyses in other parts of the overarching
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electronics, power system analysis, as well as experience in modelling, simulation, or experimental work. Ability to work independently, in a structured and goal-oriented manner, both individually and in
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: To evaluate the role of serum proteins in influencing antibiotic activity using the Minimum Biofilm Eradication Concentration (MBEC) model on titanium pegs, simulate biofilm-host interactions through a flow
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thus continuous aspects, into rule-based models of graph transformation in order to combine the individual strengths of both paradigms. Rule-based models are transparent and explainable; they make sense
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information about this DC position, please contact the scientist-in-charge/supervisor: Ola Rolfson, Professor/ Chief Physician, Institute of Clinical Sciences e-mail: ola.rolfson@gu.se Some background material
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twins, semantic modeling, secure data exchange, and reconfigurable production architectures. The research will also be carried out in LTU’s AIC³ Lab, an advanced test environment for future industrial
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modeling and simulation, as well as patient-focused and policy-related studies, ranging from individual drug optimization to pharmaceutical policy analysis. More about our research: https://www.uu.se
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collaborations, we are a key force in the field. Our core competencies include in vitro ADME models, advanced in vivo methods, computational modeling and simulation, as well as patient-focused and policy-related
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Chemistry. The thesis project will focus on computational models for assessing exposure of organic pollutants in zebrafish. The position is for four years of doctoral studies, including participation in
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focusing on: Quantum mechanical calculations using density functional theory. Mean-field modeling and Monte Carlo simulations for reaction kinetics. Theoretical spectroscopy By combining quantum mechanical