Projects
Reliable Fault Location for Electricity Grids with Power Electronic Converters KU Leuven
Kinematic Assessment of Real‐time Motion Acquisition of the Human Musculoskeletal System by Dynamic 4D Transversal Imaging (KARMA‐4Dplus) Vrije Universiteit Brussel
kinematic assessment of human skeletal structures and soft tissues in real‐time movement. We want to achieve this by combining dynamic 4D CT scanning with a markerless motion tracking system. In addition, we develop an experimental support system that allows 4D scanning in real-time movement, and a software for processing the acquired image ...
Modern applications of the Critical Power model: real-time monitoring of the energy balance during exercise Ghent University
Since more than 50 years, the critical power model provides a mathematical and physiological framework to study human exercise performance and fatigue development. However, only recently, the model has been applied to intermittent exercise, making it a hot topic again for sport and exercise scientists. This modern application bears the potential to predict changes in the energy balance of an individual at any time point during exercise. ...
Lifelong-Learning Electronic Systems: edge-devices that get smarter day-by-day [LifeLinES] KU Leuven
Real-time oscilloscope Ghent University
Our proposal concerns the procurement of an oscilloscope, which is a basic instrument for the characterization of electronic systems. It is therefore essential for the research and development of a wide range of applications such as data communications, the internet-of-things or medical equipment. Today’s oscilloscopes can, besides visualizing waveforms, also record the voltage waveforms, for further processing and research.
ROAMI: 110 GHz Real-time Oscilloscope for Advancing Flemish Measurement Infrastructures Ghent University
Communications is evolving towards the superfast 5G mobile internet, while research is already looking forward to the next generation “6G” to further expand its capabilities. To make this possible, the operating frequency of communication hardware gets pushed towards ever higher frequencies. The exponentially increasing data consumption from e.g., social media and video streaming, is driving a similar evolution towards higher speed on the ...
Protecting future fusion power plants – Development of efficient and real-time plasma disruption predictors for ITER by combining advanced data-driven models with physics insights Ghent University
In tokamak fusion devices, a plasma disruption is a sudden loss of
plasma confinement and current. In the next-step fusion device ITER,
the resulting fast release of thermal and magnetic energy may lead to
severe heat loads and mechanical stresses. Crucial for successful
mitigation is prediction of an upcoming disruption sufficiently ahead.
However, the mechanisms of a disruption are complex and current ...
Design and implementation of photonic-enabled large-scale active antenna systems for fifth-generation wireless communication systems and beyond Ghent University
The current 4G system already exploits the available bandwidth optimally. The stringent demands of the 5G wireless communication system, the Internet-of-Things and future aerospace applications require either larger bandwidths, only available at mm-wave frequencies, or the deployment of multi-antenna systems at a massive scale. We propose an innovative generic design
procedure for the pervasive integration and implementation of ...
Distributed Smart Camera Systems Ghent University
A first goal of the project is to create new robust methods for video analysis, with a special emphasis on multi-camera systems. A second goal is to create new powerful, generic and scalable computing platforms that can execute these algorithms in real-time and with very low power consumption.