Projects
A new paradigm for the service process in queueing systems, with applications in computer and communication networks Ghent University
The focus of the project is on a new class of queueing models where the traditional notion of “service time” is replaced by two new notions of “service demand” and “service capacity”. The service demand represents the amount of work that a customer requires, while the service capacity reflects the amount of work that can be processed in a time unit.
Decoding responses to periodic visual motion stimulation using multiway regression for self-paced brain computer interfacing KU Leuven
Brain-Computer Interfaces (BCIs) decode neural activity with the aim to establish a communication channel. As traditional neural pathways are bypassed, they have been hailed as a solution for patients with impaired muscular control. BCIs based on brain implants yield superior decoding performance but they require surgery and the observed loss in signal quality is a recurring concern. Non-invasive BCIs, primarily EEG-based ones, curb these ...
Load balancing and scheduling in large-scale computer systems. University of Antwerp
Declarative methods in computer science Hasselt University
Declarative methods in computer science. University of Antwerp
Increasing the convergence speed of psysically-based rendering algorithms in computer graphics using frequency-based combined adaptive sampling and adaptive filtering KU Leuven
Physically-based rendering is one of the major research topics in the field of computer graphics. It deals with the generation of photo-realistic images depicting a virtual world. Although research in this field has a history dating back more than 25 years, generating photo-realistic images efficiently is still a problem of major significance. For each pixel in the final image a light transport equation needs to be evaluated, of which the ...
Declarative methods in computer science 2016-2020 Hasselt University
Security components for trusted computer systems Ghent University
The objective of this proposal is to study and create the necessary security components to support generic security functionality on processors. The idea is to provide additional security components, that operate in parallel with the existing processor, but that are at the same time tightly integrated with the existing architectures. Parallel with the hardware components, we will also develop a number of whole program security transformations ...