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of cell signaling and environmental mechanical properties. The research will be conducted in the Department of Biomedical Engineering at the Eindhoven University of Technology (TU/e) under the supervision
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are advantageous: Experience with processing and analysis of electrophysiological signals Experience with control theory and implementation Knowledge of rehabilitation robotics or assistive technologies Background
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’ recovery progress, timely detect and even predict clinical adverse events like delirium, cardiac arrhythmias and pneumonia. In this project, the University of Twente (Biomedical Signals and Systems group
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the field. Your tasks Design and fabrication of microfluidic devices and/or microreactors Materials processing in microfluidic environments. The candidate needs to have expertise in nanomaterials
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motivated PhD student with a background in biomedical or pharmaceutical engineering, biomedical sciences or similar. You will work under the supervision of Assistant Professor Lisa Maria Riedmayr
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process. · In your application, we ask you to indicate and motivate which of the two positions you are applying for. In the second stage we will also ask you to provide examples of (or a link to
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more electronics are being used "in the edge". Think of biomedical wearables, internet of things sensing nodes, autonomous robots, etc. The PhD project will investigate the design of event-based
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techniques, or a profile with initial training in biology/microbiology with a minimum of skills in physics and engineering (instrumentation, signal processing), with a strong desire to invest in engineering
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to sense and respond to mechanical signals (e.g., stiffness, shear stress), to initiate angiogenesis, and to form luminal vessels. These findings offer clues that can be used to better understand and to
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is done. b) Hold a Master’s degree in Biomedical Engineering or Mechanical Engineering, with a final grade of 17 or higher (on a 20-point scale). c) Fluency in both English and Portuguese (preferred