Projects
Time and Symbol Diversity: Techniques for implementing Electromagnetic Resilience in Electrical/ Electronic/ Programmable Electronic Systems KU Leuven
This PhD will take up the challenge of the strong reliance of autonomous systems on wireless communication. More specifically, this PhD aims at a virtual, model-based methodology to validate, with a high level of confidence, that the resulting behaviour of an autonomous systems remains as safe as possible, even when subject to severe electromagnetic disturbances. A high level of design confidence for safety means that numerous aspects have to ...
Squeezed Quantum prOcessing with Photonics and Electronics (SQOPE) Ghent University
Quantum information science is a boiling research field with the potential to transform many areas, including communications, computing, medicine, finance, or even our understanding of how the universe works. Unlike binary digits (bits) used in ordinary computer systems, quantum bits or “qubits” can operate in a superposition of states; thus, the computation based on qubits can solve problems that a traditional computer could never answer. ...
Solid State Dielectric Supercapacitors based on Amorphous SnOx/SnyTi1-yO2/TizAl1-zO1.5+0.5z Artificial Dielectric Lattice for Energy Storage and Power Electronics Ghent University
Inferior energy storage density (ESD) of device is now the major factor hindering capacitors to serve as primary sources in renewable energy, electric vehicles and electronics. Recently, dielectric-based solid capacitors are achieving excellent ESD and high working voltage in tiny dimensions, emerging as a powerful competitor to electrochemical supercapacitors in the race to higher capacity, but yet unable to be scaled to larger size for ...
Horizon 2020: Highly EFFICIENT and reliable electric drivetrains based on modular, intelligent and highly integrated wide band gap power electronics modules Vrije Universiteit Brussel
Within HiEFFICIENT the project partners will work towards these goals and will develop the next generation of wide bandgap
semiconductors (WBG) in the area of smart mobility. To boost this development and the market introduction in
automotive applications, HiEFFICIENT partners have set ambitious goals to ...
High mobility Printed Networks of 2D Semiconductors for Advanced Electronics (HYPERSONIC). University of Antwerp
Digital and Mixed Signal Design for Flexible Electronics KU Leuven
The ambition of this Ph.D. topic is to design and realize several complex chips in the flexible electronics domain, focusing on digital or mixed-signal electronics. The main purpose of this project is to develop a dedicated microprocessor on flex and its accompanied memory block, such as SRAM. The key application is to design flexible chips for next-generation wearable healthcare applications.
Bayesian Active Learning for EMI Near-Field Emission Characterization of High-Speed Electronics Ghent University
The “Internet-of-Things”, “Industry 5.0”, “Smart Cities”, and “Autonomous Vehicles” will bring huge benefits to society. As these technologies become more widely adopted, we will be surrounded by electronic devices that are wirelessly connected. Our lives will become increasingly dependent on the correct functioning of these very complex electronic devices. But, as these devices shrink, take on more functionalities, and are squeezed closer ...
Interoperability of the Power Electronics dominated grid by openness KU Leuven
Power electronic (PE) devices are a key enabler for integrating renewable energy into our power system. However, to achieve interoperability of PE devices, barriers are present in technology but also in intellectual property and regulation. To overcome these barriers, Inter-oPEn offers a unique doctoral training program for 10 researchers that integrates multi-sectorial knowledge, gathering electrical engineering and legal researchers. To ...
Bayesian Active Learning for EMI Near-Field Emission Characterization of High-Speed Electronics KU Leuven
The “Internet-of-Things”, “Industry 5.0”, “Smart Cities”, and “Autonomous Vehicles” will bring huge benefits to society. As these technologies become more widely adopted, we will be surrounded by electronic devices that are wirelessly connected. Our lives will become increasingly dependent on the correct functioning of these very complex electronic devices. But, as these devices shrink, take on more functionalities, and are squeezed closer ...