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to make a difference. Do you want to be involved and contribute to our development? Together, we can create a sustainable future through knowledge and innovation. We believe that knowledge and new
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of Systems and Control, we 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
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the assembly of the vertebrate body plan. There is particular focus on the deep part of the vertebrate family tree and correspondingly the early fossil history of the group, from the origin of vertebrates up
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design of molecular interactions. The project will specifically be related to the 3D structure of proteins and other molecules such as pharmaceuticals and the prediction of interactions between these. A
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methods, theories and approaches; (vi); technical and/or design background. When the university hires new doctoral students, the applicants will be chosen who, after a qualitative overall assessment of
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. At the Division of Systems and Control , we 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
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and applied research. The research is related to load-bearing materials and constructions and is based on both experimental investigations and numerical modelling. The aim is to be able to design
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with light using (in operando) UV-Vis and NMR spectroscopy with LED-optical fiber-coupled setups, and test their biological activity in suitable assays. The structural design of the core structures will
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technologies and custom designed tools to investigate the nature and role of spindle afferent activity across sensorimotor contexts. A mammalian (rodent) model will also be used to investigate brain mechanisms
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new methods within artificial intelligence for molecular design, in combination with physically-based modeling of interactions between model peptides and the intestinal environment, as well as in