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Goldfish (FP7)
FP7
Preserving unpolluted ecosystems is of vital importance to the whole world. Rivers play an important role in the ecosystem preservation as, if not protected, may largely contribute to spreading contamination around the areas. Tracking of contamination in watercourses requires a system that persistently monitors presence of specific chemical agents in the water. Deployment of such systems, being relatively easy in the urbanized areas, remains a great challenge in the remote unpopulated parts with no infrastructure.
With this motivation, GOLDFISH is focused on investigating technological means for tracking pollution in remote rivers using the sensor network technology.
The GOLDFISH project will employ European ICT research capabilities for designing, development, testing and piloting of a system that aids localization of pollution in watercourses. GOLDFISH will make sure that its target solution will provide an affordable, technologically efficient, easy to deploy and operate ICT system.
More particularly, the core of the GOLDFISH solution will consist of a sensor network, management and data processing system. The sensor network is composed of sensor clusters and gateways. A sensors cluster is located under water in a watercourse and it is composed of: a set of chemical sensors, a processing unit and an antenna assembled in one waterproof structure. All the measurement results gathered via chemical sensors is transmitted to the gateways and further, via satellite communication links, to the central Monitoring and Management Station (MMS). MMS processes the data as it is being received in order to immediately detect conditions that indicate the presence of contaminating substances in water.
The GODLFISH system will be designed and produced by the EU partners of the GOLDFISH consortium, including three universities and two SMEs, using the EU research and technological (hardware and software) know-how and EU-manufactured equipment such as chemical sensors, signal interfaces, network processing units, transceivers, antennas, gateways, etc.
Durée: : 3 ans -- 01/11/2011 ~ 31/10/2014
Partenaires : Warsaw University of Technology (Poland), Lund University, Electrical and Information Technology (Sweden), Lund University, Biotechnology Department (Sweden), Université Pierre et Marie Curie ‐, Universidad de los Andes (Colombia), Universidad Mayor de San Andres (Bolivia), Ho Chi Minh City University of Technology (Vietnam), Green Communications (France) and Capsenze (Sweden)
Membre faisant partie du projet : Aitsaadi Nadjib, Langar Rami, Fajjari Ilhem, Amokrane Ahmed and Khalfallah Zakia
Publications liées : 2014 2013