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to wind and energy systems transition. Internationally recognized for pioneering wind technology and smart energy systems, the department is structured into four divisions: Materials and Components, Wind
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develop next-generation electronics and computing solutions that solve technology-related challenges in fields such as autonomous robots, drones, IoT, smart grid, and healthcare. The section is a vital
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energy and transportation sectors. We design solutions for a wide range of applications, including smart cities and residential self-consumption, backup power in isolated areas, energy management systems
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contribute to smart grids that make energy networks more efficient, mathematical models that assist medical doctors, schedules that make hospitals more efficient and numerical schemes to study multiscale fluid
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, mobility, human language technologies, agri-food, industry 4.0, and smart grids. This high level of knowledge transfer is achieved through both competitive research projects and direct contracted research
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, and smart grids. This high level of knowledge transfer is achieved through both competitive research projects and direct contracted research. Therefore, public and private entities have access to a pool
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climate change, water-food-energy security, infrastructure systems/sustainability, and smart-grid. In addition, study areas include, but are not limited to, human behavior, human-system interaction, and
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smart grid). While there has been tremendous progress in formal verification of cyber-physical systems, existing approaches still require expert knowledge. The main goal of this project is to develop