Projects
A scaleable foundation for multi-paradigm modelling. University of Antwerp
Frame computing for the simulation of oscillatory phenomena (Waves). KU Leuven
The research project covers three shutters: the representation of oscillatory functions, the evaluation of strong oscillating integrals and the development of frequency independent numerical methods. These shutters together form an integral approach to the simulation of high frequency wave problems.
A new paradigm for the service process in queueing systems, with applications in computer and communication networks. University of Antwerp
Feasible self-assembly models Hasselt University
Interactive mining and evaluation of pattern sets. KU Leuven
We live in the era of data and need tools to reveal valuable information in large amounts of data. The goal of exploratory data mining is to provide as much insight in given data as possible. Within this field, pattern set mining aims at revealing structure in the form of pattern sets. Individual patterns describe subsets of the data; a non-redundant set of patterns provides a global description.
Although pattern set mining is a ...
Exploiting symmetries for inference and learning. KU Leuven
The field of artificial intelligence (AI) has historically been divided into two subfields: logical and probabilistic reasoning. The area of logical reasoning has been concerned with problems such as theorem proving, satisfiability, logic programming and many forms of knowledge representation in logic. Logical methods are useful for modeling the complex structures of hardware circuits, molecules, relational databases and biological and social ...
Distributed digital signal processing algorithms for highdensity wireless EEG sensor networks with application to ASSR based objective hearing thresholds estimation KU Leuven
Electroencephalography (EEG) is used to analyze brain activity and detect brain responses to specific stimuli. It offers a high temporal resolution versus a low spatial resolution. A higher spatial resolution may be obtained by adopting a higher electrodes density together with powerful digital signal processing (DSP) algorithms. However, hundreds of electrodes then have to be wired to an output device that collects and processes all ...