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position within a Research Infrastructure? No Offer Description Job description This project focuses on modelling, simulation, and decision support for AI-based penetration testing. A central premise is that
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between neuroscience, psychology, and chemistry to jointly try to understand how the human sense of smell works. To achieve this goal, we conduct various research projects that try to link odor perception
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together with top researchers in the intersection between neuroscience, psychology, and chemistry to jointly try to understand how the human sense of smell works. To achieve this goal, we conduct various
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effects on precipitation behavior and particle properties. Selected precursor materials may also be evaluated through calcination and electrochemical testing to assess the potential impact of impurities
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for computational analyses. Use of software and applications for modelling in development cohorts and testing in validation cohorts. Development of predictive software and, in collaboration, management of the group’s
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doctoral degree or an equivalent foreign degree, obtained within the last three years prior to the application deadline Experience in mechanical testing relevant to Ni-base superalloys and Ti-alloys (tensile
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of physics‑informed control of mobile manipulators, data collection from real and simulated machines, and model development and testing in simulated environments. The project offers close collaboration with
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studies of physics‑informed control of mobile manipulators, data collection from real and simulated machines, and model development and testing in simulated environments. The project offers close
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advanced measurement techniques to test these models in living cells. The detailed knowledge of bacterial physiology is combined with the sensitive measurement tools to develop innovative solutions
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or an equivalent foreign degree, obtained within the last three years prior to the application deadline Experience in mechanical testing relevant to Ni-base superalloys and Ti-alloys (tensile, fatigue