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adopted in autonomous (self-powered) sensing including power management, energy storage, data collection/storage and wireless transmission. Testing & validating the developed MEMS system (including circuit
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a strong background in computational modeling, optimization, and systems engineering, eager to develop advanced design and simulation frameworks for battery pack topology and e-powertrain integration
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sustainable and efficient transportation. Since fuel cells have slow dynamics and quick degradation, optimal and predictive energy management control is crucial for maximizing energy efficiency and extending
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faculty mentor and technical director for FSAE, guiding end-to-end vehicle development: concept, design, systems integration, manufacturing, testing, competition logistics, and continuous improvement
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the first time as a project manager. The thematic area of the project "Development of adaptive, AI-based traction energy-saving strategies for tactical and civil transport vehicles". Description
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Sustainable Development, Electric Vehicle Battery Systems, Charging Systems for Electric Vehicles, An Overall Design of Electric Powertrain System. Mechanical Engineering: Introduction to mechanisms and
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reputation in powertrain system integration and control, energy management, high-speed electric motors, autonomous vehicles, automotive fuel cells, carbon-neutral fuels (hydrogen and e-fuels), and/or real
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, RoboBoat, and RoboSub. The department also has a strong profile in applied research in areas such as robotics and autonomous systems, energy systems, advanced powertrains, and biomedical. The department has
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participate in the university's self-administration and the structural tasks of the institute. You will be actively supporting our EV Powertrain team, which focuses on research related to high-voltage batteries