Industry-driven cooperative r & d programme for maintaining european leadership in software-intensive systems (in which software represents a significant segment in system functionality, system development cost & risk, system dev. Time).
Monitoring insects and fungi in stored rice from the field to industrial areas, as part of risk assessment and as a decision-making tool. Application of alternative less noxious control methods than traditional ones.
To develop new products based on miniaturisation, autonomy, reliability, high speed and low energy, using micro and nanotechnologies by addressing heterogenous technologies for ambient intelligent vision. This cluster is the follow-up of eurimus ii and pidea+.
Pro-factory is a european network that aims to bring forward and coordinate applications-oriented, bottom-up, collaborative r&d projects in production and robotics for greater competitiveness and sustainability.
Eads de of germany and bird aerosystems of israel are pursuing the development of a civil certified self protection system. The new system is based on a dual sensor mechanism, combining both uv sensors and radar sensors. The new system will provide higher accuracy and ultimate reliability.
An integral vehicle security centre, which will eventually include 6 video streaming, a unique asic (application-specific integrated circuit), and interfacing with a gps (global positioning system) and mems (micro-electro mechanical system) accelerometers. The product will record and restore.
Celtic-plus is considered essential for securing and enhancing the market position of the european telecommunications industry, by continuing the successful work initiated by celtic almost eight years ago.
Within the project the utilisation of large machine tools with powerful spindles for micromachining will be enabled by a parallel high speed machining, which are investigated, applied and tested. The new combination leads to a significant widening of the application range of 5-axis-machine tools.
New wrought mg alloys with enhanced energy absorption will be developed. The properties of mg sheet-metals for body protection against hit, stab and ballistic threads will be guaranteed by thermodynamic-based alloy design and novel processing techniques. Weight reduction will be assured.
The microstructure and properties of adi parts depend on composition, as-cast microstructure and phase transformation kinetics. These parameters must be optimised to ensure the required properties. The project is aimed at the development of adi, treatment and simulation to optimize its manufacturing