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metabolic assays and imaging techniques such as echocardiography or tracer-based studies. Analytical and detail-oriented. You can work with quantitative data and statistical tools (e.g. R, Python, GraphPad
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and simulation of PV systems and other offshore renewable energy technologies; hydrodynamic and fluid dynamic systems; programming and numerical modelling (e.g. Python, MATLAB); computational fluid
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background in, or willingness to learn, physics-based numerical modelling and programming skills, in Python (preferably), R, MATLAB, or a comparable language. Openness to collaborate within interdisciplinary
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experience with: Reinforcement learning. Neuro-musculoskeletal modeling Knowledge of the following is a plus: Real-time programming (C++, Python) Real-time communication systems (e.g., EtherCAT, CAN Bus
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programming languages such as Python or R. You are able to collaborate effectively in a diverse, multidisciplinary research team. You have strong communication and social skills. Given the international
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experimental work, has experience in polymer rheology and can implement constitutive models in Matlab or Python. Position 2 – Ply/ply and tool/ply friction during hot press forming Excessive friction between
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(e.g., R, Python) Project management and organization skills Proficiency in English at an academic level, including strong writing skills Skills for providing small-scale education, such as bachelor
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in Computer Science, Artificial Intelligence, or related field. Solid programming and development skills (Python, Git, Bash). Experience with machine learning (e.g PyTorch/TensorFlow). Strong interest
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, preferably with a proven background in, or willingness to learn, physics-based numerical modelling and programming skills, in Python (preferably), R, MATLAB, or a comparable language. Openness to collaborate
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signal processing. Experience in programming (Matlab and/or Python and/or C). Analytical mindset. Hands-on approach. Good interpersonal and interdisciplinary communications skills. Proven autonomic