Projects
The Recursive Internet Architecture as a solution for optimal resource consumption, security and scalability of sensor netowrks: RINAiSense. Ghent University
RINA is a novel internet architecture, currently being designed and investigated. Wireless sensor networks consist of extremely resource-constrained devices. This environment represents the ultimate test scenario for RINA. The RINAiSense project will improve the scalability and security of wireless sensor networks, while investigating the applicability of RINA to resource-constrained systems.
End-User Development of Intelligible Internet-of-Things Objects and Applications. Hasselt University
Design and implementation of flexible integrated microwave Systems-on-Package for fifth-generation wireless systems. Ghent University
Innovative generic design strategies and fabrication processes for very thin, flexible, and high performance microwave Systems-on-Package (SoP) will be developed, to meet the requirements of next, fifth-generation (5G) mobile communication system and the Internet of Things (IoT) in terms of bandwidth, massive numbers of interconnected devices, and inconspicuous integration.
Stochastic and Asymptotic Improvements of Scheduling Algorithms University of Antwerp
Bayesian Active Learning for EMI Near-Field Emission Characterization of High-Speed Electronics Ghent University
The “Internet-of-Things”, “Industry 5.0”, “Smart Cities”, and “Autonomous Vehicles” will bring huge benefits to society. As these technologies become more widely adopted, we will be surrounded by electronic devices that are wirelessly connected. Our lives will become increasingly dependent on the correct functioning of these very complex electronic devices. But, as these devices shrink, take on more functionalities, and are squeezed closer ...
Bayesian Active Learning for EMI Near-Field Emission Characterization of High-Speed Electronics KU Leuven
The “Internet-of-Things”, “Industry 5.0”, “Smart Cities”, and “Autonomous Vehicles” will bring huge benefits to society. As these technologies become more widely adopted, we will be surrounded by electronic devices that are wirelessly connected. Our lives will become increasingly dependent on the correct functioning of these very complex electronic devices. But, as these devices shrink, take on more functionalities, and are squeezed closer ...
Safe HousePower: Collaborative smart surfaces in home materials for safe wireless powering of IoT devices Ghent University
Due to the emerging Internet of Things (IoT), the number of energy-demanding wireless devices in the home environment (such as smartphones, temperature sensors, smoke detectors, laptops, etc.) increases rapidly. As the number of sockets in a residence is limited and the frequent need for recharging or battery replacement is time-consuming, we propose in this project to power IoT devices wirelessly through the house infrastructure. Therefore, ...