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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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, scanning system, and signal detection within a multi-beam framework. For this purpose, you will use commercial simulation software tools such as EOD and GPT, while also developing custom Python-based
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developing custom Python-based simulation scripts. TU Delft will support your research with access to the DelftBlue supercomputer for large-scale and intensive modelling. In the second phase, you will work
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Engineering with excellent grades. Knowledge of Digital/Mixed-Signal Integrated Circuit (IC) design and Computer Architecture. Solid skills in HDL (Verilog, VHDL) and scripting languages (Python, TCL
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English is not your mother tongue; Official, stamped MSc degree certificate; Good command of programming languages like Python will be considered as a plus; Experience with sorption behavior of surfactants
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programming (e.g. in Python), or the willingness to learn; the willingness to work collaboratively with other researchers; professional command of English and good presentation skills. This is what we offer you
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, or a related field Experience in working with patients with neurological disorders (preferred) Experience with data analysis using Python and/or Matlab (preferred) Experience with neuroimaging data
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Python will be considered as a plus; Experience with rheology will be considered as a plus; Experience with AFM (Atomic force microscopy) will be considered a plus. For this position your command
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of programming languages like Python will be considered as a plus; Experience with sorption behavior of surfactants/polymers will be considered a plus; Experience with anaerobic bioreactors will be considered a