Projects
ADOPSYS: ADvanced OPtical SYStem Design. Vrije Universiteit Brussel
Miniaturised Strucutral Monitoring System with Autonomous Readout Micro-Technology andFiber sensor network. Ghent University
In this project, we will develop a smart miniaturized system which integrates optical fiber sensor technology, nano-photonic chip technology and low power wireless technology. The smart system will enable for the first time fully embedded structural health monitoring of composites used as structural parts in e.g. wind turbine blades, satellites, airplanes, civil constructions, oil and gas wells, boat hulls. Due to the innovative approach of ...
VECTOR :Versatile Easy installable Connector incorporating new Technologies for accelerated fiber Optic network Roll outs in Europe Vrije Universiteit Brussel
VECTOR aims to develop and commercialize an innovative low-cost highly performing field installable connectivity system that will impact at a multi-million-euro scale the capital expenditure (CAPEX) and the operation expenditure (OPEX) of telecom fiber broadband networks and that will facilitate the achievement of the ...
ACTPHAST: Access CenTer for PHotonics innovAtion Solutions and Technology support Vrije Universiteit Brussel
Aircraft integrated structural health assessment II (AISHA II). KU Leuven
Next-generation on-chip supercontinuum light sources based on graphene-enabled extreme nonlinear optics Vrije Universiteit Brussel
Photonic Integrated Circuits using Scattered Waveguide elements in an Adaptive, Reconfigurable Mesh Ghent University
In PhotonICSWARM, I will use silicon photonics technology to build general-purpose, programmable optical chips that rely on topologies of distributed waveguide circuits governed by distributed control algorithms. In silicon photonics, optical signals are transported along waveguides on photonic integrated circuits and processed by elements that filter specific wavelengths or modulate signals. Silicon photonics is the choice technology for ...