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This fully-funded 4-year PhD project at the Department of Industrial Design aims to examine how the dynamic degrees of vulnerability shape and influence the design process of technology to support
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this context, the design and the coordination of these components is of paramount importance to achieve a robust and sustainable energy grid operation. Within this project, we aim at developing a digital-twin
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University of Technology. In EES’ High-Voltage laboratory (a 14x14x8m Faraday cage) we work on (nanosecond) high-voltage pulse source design, plasmas, pulsed power applications and all the intermediate steps
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Are you eager to use your math skills to design optical systems for sustainable high-tech devices for billions of people? Irène Curie Fellowship No Department(s) Mathematics and Computer
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Are you interested in sustainable structural design to reduce the CO2 footprint of buildings? Are you passionate about bio-based composite material systems and want to enhance their use in
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literally?!! In this project, we aim to develop numerical tools to design optical surfaces that transform a source of light into a desired target. To tackle the nonlinear differential equations involved
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. Antenna integration using novel integrated circuit (IC) packaging technologies as well as antenna-electronics co-design are focus areas for this research. Also basic radar system design, e.g
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on mixed-signal design for neuromorphic computing, specifically centered around Oscillatory Neural Networks (ONNs). A primary research thrust within the NanoComputing Research Lab involves advancing ONN
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technology.Its consortium covers the entire value chain for manufacturing of CMOS chips in the 10Å node, that is, from chip design to lithography to process technology and finally chip metrology. Essential parts
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, the design and fabrication of photonic integrated circuits (PICs) systems to exploiting optical linear/non-linear signal processing to unlock fiber capacity and relevant higher layer protocols required