Research to develop a generic master model for an industrial crystallisation process that can be applied in process design, process engineering, process performance, model predictive process control and economic performance based dynamic optimisation.
To research and develop a next generation intelligent roof system for automotive applications. The system will be based on lightweight polycarbonate transparent glazing technology, incorporating vehicle stiffness, side-impact resistance and ambient lighting technology.
The organisations will investigate the feasibility for improving the shielding-effectiveness of joints of different connected parts in an emi shielding solution, specific for beki-shield(r) based conductive plastics.
Scientific investigations and practical measurements for the selection and optimisation of the layout of cable harnesses, fuses and other electrical components in cars.
To develop formal methods to be applied to the mechatronic systems development process for the automotive industry. Syspeo joins the efforts of one tier 1 company (delphi), two smes (wow company and tni) and two laboratories (ucl and cea list).
To quantify, compare and understand the effects of dysphotopsia that influence the vision of patients with multifocal intraocular lenses with the goal of optimising the design of these advanced medical implants.
The project will analyse the influence that the design of components and manufacturing process variations have on the noise behaviour of a vehicle disc brake.
Ues delivers the next generation of methods and means for development and production of hi-tech products in modern manufacturing enterprises. A synergetic result comes from the domains of a) management and control architecture, b) distributed systems of ict, c) ubiquitous oriented embedded systems.
By combining two existing state-of-the-art technologies, it will be possible to accurately simulate and optimise the filmbuild on car bodies. This also applies to electrostatic processes.
To develop a sustainable & innovative cryogenic machining system/technology for overall machining performance enhancement, based on enhanced environmental impact, energy consumption, safety, personal health, waste management and manufacturing costs, and by employing sustainability principles.