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, international group of 13 researchers from 8 countries, with expertise across energy systems and markets, optimization, control, game theory, and machine learning. Interdisciplinary by design: Work at the
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green transition. Due to the complexity and heterogeneity of the biological mechanisms underlying fermentation, achieving optimal performance often requires fine-grained, time-dependent, control
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, to work at the intersection of AI, security, and embedded systems, contributing to next-generation trustworthy hardware platforms for cyber-physical energy systems. About the project AI:X is an ambitious
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role in transferring inventions and results into applications in close collaboration with industrial partners worldwide. You can read more about the department at www.es.aau.dk. Your work tasks Current
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candidates, as part of the AI:X initiative at Aalborg University , to work at the intersection of AI, security, and embedded systems, contributing to next-generation trustworthy hardware platforms for cyber
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crucial role in the modelling, design, and optimization of various systems in product and process engineering. Despite significant progress made over the decades, existing thermodynamic models and theories
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) for measuring the quality, shape and the neutron focusing performance of the Wolter optics. The work will be performed in close collaboration with a postdoc who will work on simulating the optimal design of
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, fabricate and optimize 3D carbon micro- and nanoelectrodes for dielectrophoresis and redox amplification evaluate material properties and electrochemical performance of the 3D electrodes integrate the 3D
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the time-dependent Schrödinger equation. The laser fields are optimized for a desired outcome using various optimization techniques. Our previous work on this topic (see e.g., E.F. Thomas and N.E. Henriksen
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fast operation. The project comprises simulations and design, nanofabrication in collaboration with colleagues, and experimental characterization. Project C: Topology optimization of nanocavity