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Field
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boundaries of system-level modelling, analysis, design, exploration and synthesis beyond the current state-of-the-art? Or are you curious to learn more about the application of AI for system diagnostics and
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specially designed test structures and new tunnelling devices realised in advanced CMOS. Based on a thorough literature review and the outcome of this research, the main challenge will be to (co-)develop
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of frictional behavior and advanced constitutive models to describe it. In this project, you will: Experimentally characterize ply-ply and tool-ply friction under a variety of processing conditions using our
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on the development of new antenna and integrated circuit concepts for radar and electromagnetic modelling. The Electromagnetics (EM) and Integrated Circuit (IC) groups are involved as well as the Center for Wireless
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has a long-term involvement in detector construction (the semiconductor tracker, barrel muon chambers, readout, alignment, and data acquisition). For the phase-2 upgrade (2027-2030), we will instrument
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will include boosted final states. The analysis strategy is strongly focused on advanced machine learning techniques, developing attention-based transformer models that will directly classify events from
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to relate model structure to outcomes and interpret them in biologically meaningful ways. A collaborative, curious, and creative mindset. Fluency in English (written and spoken; minimally language level C1
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Ready to shake things up in aerospace manufacturing? Join us in developing next-gen quality assurance methods for 3D-printed metal parts using vibrations, AI and physics-informed models, and help
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brain connectome organization and the integration of this data with recent functional and structural connectome properties and recent evolutionary genetic discoveries, utilizing large-scale bioinformatic
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to organ-level outcomes. Your research will clarify how dicarbonyl and AGE (advanced glycation end-product) stress contribute to age-related changes in cardiac structure and metabolism and identify potential