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lifecycle management. At the same time, the project delves into software design concerns, focusing on the internal structure and evolution of AI-enabled components themselves, including the design of
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. We work on valorization of side streams boths from industry and agriculture for example producing textile fibers from grass and develop resource- and energy-efficient processes for example for CO2
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aggregation, the impact of different inhibitors on its aggregation mechanism, and the development of tau-based diagnostics. The work will also include the writing of manuscripts as well as supervision
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targets the development of advanced grey-box modeling frameworks for multiphase flow systems, combining mechanistic, multi-scale flow models with data-driven inference and uncertainty quantification
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excellent research, innovation, and education, we contribute to the development of future industrial value chains. In the division ofMaterials and Manufacture you’ll join a friendly, international team
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and Chemical Biology, United Kingdom. Your work may include clinical and biomedical projects. It may also include technique development work aimed at combining imaging techniques and data analysis
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postdoctoral researcher in textile technology with a focus on pain management using textiles. The project explores so-called MH (machine-to-human) touch as a hypothesis for alleviating chronic pain. By
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from a multi-layer perspective, focusing on SDN-controlled networks and vulnerabilities in virtualized scenarios. The work involves developing multi-layer risk models, creating risk mitigation tools
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change in Norrland’s freshwater systems. The project has two main components: Hydropower impacts on benthic fauna – examining how water-level regulation influences invertebrate abundance and diversity, and