Projects
Reduction of Operational Carbon Footprint of Wireless Networks through Lean Transmission Techniques KU Leuven
This PhD thesis will focus on the development of solutions to improve the energy efficiency of cell-free massive MIMO wireless communication systems. Cell-free massive MIMO uses distributed antenna arrays to overcome several limits of the common cellular networks. In this dissertation, novel signal processing algorithms will be developed under realistic hardware constraints, e.g., using advanced models for the consumption of power amplifiers ...
Nonlinear and Parametric Model Order Reduction for Second Order Dynamical Systems by the Dominant Pole Algorithm KU Leuven
aerospace products.
In order to gain competitive advantage, manufacturers are continually striving to reduce noise and
vibrations levels.
The numerical analysis of the acousticbehaviour results in huge mathematical models, in particular,
for higher frequency analyses.
This leads to high requirements regarding ...
Vibro-Acoustic Model Order Reduction KU Leuven
Stress reduction at work using wireless sensors. KU Leuven
In the 21st century, stress and mental health have become major concerns worldwide. Yet, a continuous, quantitative measurement technique, allowing just-in-time interventions to reduce stress, is lacking. Therefore, research has focused on exploiting the sympathetic nervous system’s (SNS) fight-or-flight response, by investigating physiological signals for monitoring stress. Research has focused on developing machine learning models for ...
Combining high-resolution in situ techniques and modelling to unravel the long-term effects of iron addition on phosphorus dynamics around sediment-water interface KU Leuven
Stability, scalability, robustness and performance of moving horizon estimation based model predictive control. KU Leuven
Experimental model based estimation of inputs and parameters for vibro-acoustic system-level predictions KU Leuven
Dynamics in the Central Plant Cell Metabolism KU Leuven
A combined modelling-experimental investigation of the reaction kinetics of carbon-limiting and zero-carbon processes Ghent University
The macroscopic behaviour of a material is determined by the structure of the material on microscopic level (the microstructure). This microstructure and how it evolves are determined by the rate or kinetics of various reactions. During metallurgical production processes, metals can be obtained from metal-oxides by reduction reactions. For this, reductive agents, such as carbon or
cokes are used and the kinetics of the reduction ...