Webair builds a web-based real-time multi-media information and decision support system for urban and industrial air quality assessment and management integrating on-line monitoring and modelling, in support of relevant european directives.
The xml_fed project will research and develop the application integrating xml intelligent forms and voice. The aim is to enable elderly and visually impaired people to easily handle vital on-line forms such as claims for pensions, etc.
The project encompasses a complex solution for biologically removing solid wastes consisting of natural and synthetic polymers. The r & d of this bioremediation is based on using microbial capability to colonise solid wastes.
The project will see a complete hardware and software solution for gas management developed.The solution will be based on automatic meters reading via gprs and on an intelligent software system for collecting, analysis and distributing data
Novel chlorin e6-based medicine (photosensitiser) to efficiently treat skin cancer has been approved by rada-pharma in russia.
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.
Development of an it system for european inter-modal transport as an independent information centre with searching tools, for all market players, for desktop and web applications, web components and web services, with a digital map of europe and asia.
The project will develop the application integrating xml intelligent forms with voice engine able to communicate with doctors, patients and medical information systems so that a patient's medical records would be accessible instantaneously at a sick bed during the doctor's round.
To investigate a biometry-based method for creating prototypes for use in the field of electronic services for identity and information security processes.
The purpose of the project is to develop flame detectors with a much higher signal/noise-ratio by the application of novel magnesium-niobate-lead-titanate (pmn-pt) based single crystals instead of standard lithium tantalate (lt).