The project integrates and optimizes an accurate gps for the usage of vehicle safety application. Vehicle-to-vehicle communication relies on accurate positioning and cheap cost. Both of those targets are addressed by this project.
A system to orchestrate building processes (bp). A collaborative platform enables multiple parties’ information exchange, a groundbreaking exceptions’ manager, co-storage, a built-in analytical module to make sense of the big data, and an innovative engine for dynamic and proactive design of bp
Multibeam Laser Micro Drilling and Cutting
Flexible communication network in the field of industrial production systems integrated in company operations to develop competitiveness in mfg. Methods/design, mfg.Systems/ technology and organisation/human resource development.
Development of lightweight, high-performance magnesium alloys for the automotive, electronic/ aerospace industries with maximum extrusion speed, meeting performance requirements/ considerable environmental benefits.
Development of a breakthrough laser cutting system for thin metal sheet replacing standard punching techniques. The foreseen development requires the achievement of very high cutting speed (up to 100 m/min) and advanced control concepts.
Development of magnesium alloy extrusion technology for large profiles for application in the automotive industry to reduce chassis weight, leading to fuel consumption reduction and enhancement of performance of the cars produced by the end user.
Optimisation of the 'greenkote' process for the corrosion protection of high strength friction grip (hsfg) bolts, and scaling it up to the point where 100s of kilogrammes can be treated at a time with a high degree of repeatability.
Research on cold-deformable & corrosion resistant mg-li based alloys & processing technologies from rapid solidification to near-net- shape forming, for automotive/electronic industries committed to the tokyo protocol and sustainable development in portable electronics.
The main goal of the project is to improve adhesive surface properties under conditions of contact with the living tissue and to increase the life-time of artificial implants in a human body by depositing protective coatings.