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, Mathematics and Computer Science (EEMCS). We work on next-generation power electronics, energy systems for smart grids, advanced battery electronics and management, power devices, power and energy measurements
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between virtual storage (arising from spatiotemporal complementarity), conventional grid integration options (e.g., storage, interconnectors, firm low-carbon generation), and emerging renewable technologies
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, computer science or mathematics, and have a keen interest in energy applications. Candidates with a background in electrical engineering (especially from a smart power grids background), technology, policy and
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control theory at the University of Groningen. The increasing complexity and ever-tighter performance requirements on systems such as occurring in high-tech manufacturing, autonomous vehicles, and smart
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such as occurring in high-tech manufacturing, autonomous vehicles, and smart energy poses many challenges to the current status of control theory. Namely, existing control methods do not scale with
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. In applications, we focus on systems that are crucial to everyday life. We contribute to smart grids that make energy networks more efficient, mathematical models that assist medical doctors, schedules
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that balance energy supply and demand, improve electricity grid flexibility, and optimize renewable energy integration. These solutions contribute to climate change mitigation by reducing emissions and to
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interconnected world, smart applications, and global business, necessitating the use of collaborative analytics, require the collection and processing of private information. In this PhD trajectory you will be
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Technologies & Societal Transformations, Resilience, Smart Industry, Learning, and Health – we empower students and researchers to make a positive societal impact. At BMS, we combine critical thinking with
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, efficient, and adaptive energy infrastructures at local level. By leveraging data-driven methods, cities can devise strategies that balance energy supply and demand, improve electricity grid flexibility, and