Projects
The operation of future electricity generation systems: Matching existing and novel energy conversion technologies for optimal system operation KU Leuven
The increasing share of intermittent renewable energy sources puts substantial stress on the electricity generation system’s secure operation. Flexible operation of power plants and other means of flexibility will be required. Dedicated models are required to optimize the reliable functioning of such future low−carbon systems. Critical research progress is envisaged in upgrading and developing new operational ...
The operation of future electricity generation systems: Matching existing and novel energy conversion technologies for optimal system operation KU Leuven
The increasing share of intermittent renewable energy sources puts substantial stress on the electricity generation systems secure operation. Flexible operation of power plants and other means of flexibility will be required. Dedicated models are required to optimize the reliable functioning of such future low-carbon systems. Within this project, critical research progress is envisaged in upgrading and developing new operational ...
Pulse Fisheries: determining the safety margins for marine organisms and the optimal pulse for catching sole (Solea solea) Ghent University
Shrimp and flatfish can be caught by electric pulses in a more selective and ecological manner in comparison to the traditional beam trawling. The purpose of this project is to determine the safety ranges of electric pulses for marine organisms as well as the development of a pulse for catching sole.
Optimal machine design by means of virtual engineering (OPTIMOTION) University of Antwerp
Optimal point-to-point motion control of machine tools. KU Leuven
Matching the functional properties of nanoparticles and nanowires. University of Antwerp
Matching the functional properties of nanoparticles and nanowires Hasselt University
Towards Parallel-in-time Multiple Shooting Methods for Large-scale Optimal Control Problems governed by the Navier–Stokes Equations KU Leuven
In recent decades, the study of optimal control problems governed by Navier–Stokes equations has received noticeable attention in many applications. In the turbulent regime, the model equations in the control problem correspond to direct numerical simulations or large-eddy simulations, making the solution of the underlying optimization problem very expensive and challenging. Recent work has focused on improving optimization algorithms for ...
Analysis and Construction of Optimal Lattice Based Cubature. KU Leuven
This project develops new theory and analyzes new algorithms which can be used to calculate expected values and other moments of quantities of interest obtained from complicated mathematical models by use of efficient high dimensional numerical integration methods, or "cubature" in short, based on "lattice point sets". Such integration problems with respect to very high dimensional and infinite dimensional measures are one of the most ...