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at various length scales (micro- and mesoscopic) associated with the manufacturing process of aerospace thermoplastic tapes and composites. The work involves verification and validation steps with simulation
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non-linear control, and advanced optimization methods. This PhD position, starting from October 2024, offers a great opportunity to work in a multidisciplinary team and with industrial partners. In
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data" for ongoing model refinement and improvement. Benefits: Opportunity to work on cutting-edge research with significant real-world impact. Collaborative and dynamic research environment. Access
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our washing machines, which cannot be completely filtered with current methods. We are working with an industrial partner to find a solution to the problem. In this project, the PhD researcher will
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array signal processing and antennas is appreciated. Proficiency in programming languages such as Python or MATLAB. Excellent analytical and problem-solving skills. Effective communication and
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to deliver insightful information about the manufacturing process of aerospace thermoplastic components, relating process parameters to the final product. The work involves verification and validation steps
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Laboratory experience proven by lab courses, internships or previous work experience. Scientific attitude and analytical skills combined with a hands-on mentality. Independent, self-motivated, curiosity-driven
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mechanical strength, durability, and environmental impact. The successful candidate will have the opportunity to work on innovative research ideas that address the critical societal challenges in sustainable
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the experiments and research objectives of JIP participants. An Master's degree in e.g. geoscience, chemical, petroleum or mechanical engineering with a following skills: Strong lab work experience Modeling skills
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and implementation of both sensor-based and sensor-less Dynamic Line Rating technology (with appropriate protective relaying), which monitors the Dynamic Thermal Rating of the line, based on current