Gas Aerosol Nucleation Spectrometer
Design, develop and test an innovative integrated system to neutralise mined areas. This system will enable the position and kind of mines used to be determined with a 99% accuracy rate.
Creation of an extremely sensitive and reliable portable system to detect and analyse explosives agents for areas in danger of terrorist attack (e.G. Air transport, nuclear power plants), based on laser technologies.
A tool to evaluate the wind, temperature and other meteorological variables to optimize the use of renewable energy in the european electricity market.
Mafalda deals with two aspects of dedicated fibre lasers: (1) the development and valorisation of a low cost solution for specific micro-surgery applications and (2) showing the technology's reliability and capacity for dealing with demands from powerful modern medical and non-medical applications.
To develop and integrate a multi sensor solution for the detection, analysis and characterisation of sub-surface features using non-destructive techniques.
The project will review and define quality parameters for optimising yield management that may be measured online from slaughter to packing. The sensors would include: vision, specialised optics, contact and force, x-ray and chemical sensors.
Development of aerial unmanned vehicles and related sensors for remote monitoring.
This project is focussed on the development of an automatic, combined system for the complete identification of vehicles. This device has three different modules, including both hardware and software levels: 1.-Number plate recognition; 2.-Colour recognition; 3.-Magnetic recognition.
This project is devoted to research and development of novel metamaterial-based (mtm-based) passive and active sensing devices for agricultural, environmental and in-ground detection applications. High performance and compact soil-moisture sensors and ground penetrating radars are envisaged.