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EUROCEAN

FUNDACAO EUROCEAN
Country: Portugal
17 Projects, page 1 of 4
  • Funder: EC Project Code: 244164
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  • Funder: EC Project Code: 308473
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  • Funder: EC Project Code: 824173
    Overall Budget: 1,500,000 EURFunder Contribution: 1,500,000 EUR

    The European RI landscape is diverse (RI operators, managers, users (researchers, industry) decision makers, funders). Past efforts were directed towards gaining insight into available RIs, national RI road mapping practices, and planning of pan-European RIs. A catalogue of services for e-infrastructures is currently under development. A recent report by OECD Global Science Forum highlights that ”open digital platforms…can have substantial value for a wide range of stakeholders”. Responding to the needs of users of physical RIs, CatRIS will make available information about RI services offered in Europe. Such information will improve visibility of services, foster European and international collaborations, and enhance RI accessibility, usage, and impact. Currently, RIs provide information about their services mostly in free formats through websites with varying completeness and details. Existing initiatives will be analysed to identify best practices and to propose a service catalogue structure to respond to users’ needs. A prerequisite for the success of CatRIS is its integration in the European RI landscape and its different systems. Avoiding duplication of efforts and fostering interoperability is also essential. Although challenging, an interoperable system is the only sustainable approach that can be envisaged to keep information alive. In particular, CatRIS will follow closely the development of the EOSC to become an integrated part of it as an indispensable tool connecting RI users and managers. The active engagement of the whole RI community is critical and, being at the centre of the project, will provide specifications and drive for the development. Through the use of a rating system and feedback loops on its contents, CatRIS can also serve as a bottom-up tool to facilitate the identification of potential gaps of European RI services. CatRIS will thus operate as an open “network of networks” branching out to RI communities across borders and beyond.

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  • Funder: EC Project Code: 101004211
    Overall Budget: 1,500,000 EURFunder Contribution: 1,500,000 EUR

    The increasing number of tools and algorithms able to process and extract qualitative and quantitative information from Earth Observation products has an enormous potential to support the evaluation of weather-induced climate risks. The ECFAS project will contribute to the evolution of the Copernicus Emergency Management Service by demonstrating the technical and operational feasibility of a European Coastal Flood Awareness System. ECFAS will provide a proof-of-concept that will complement and broaden the currently available panoply of core service information. ECFAS will evaluate coastal flood risk contributing to a fully integrated risk cycle monitoring service. ECFAS will implement an awareness system for coastal areas (preparedness phase) and impact assessment products (response phase), fundamental for effective recovery and prevention actions. Following the principles of subsidiarity and proportionality, the avoidance of duplication, and the facilitation of user uptake, ECFAS will capitalise from the product portfolio of CEMS, CMEMS and CLMS, publicly available datasets and information derived from relevant EU projects. Marine forcing forecasts will be improved through the integration of available models in order to reduce uncertainties and provide reliable coastal flood maps. Hazard and impact assessments will be carried out taking into account the existing CEMS framework and adding the impact on low-lying areas, that represents a set of added value mapping products. The technical operational feasibility of the products will be demonstrated through a performance assessment of the service in selected test cases for past-events, as well as in forecasting mode. The integration of data from different sources will require increased computer resources, supporting the concept of using DIAS as core processing service. The availability and accessibility of generated data and derived products will stimulate their exploitation by users of the Emergency Service and beyond

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  • Funder: EC Project Code: 101094621
    Overall Budget: 9,500,360 EURFunder Contribution: 9,500,360 EUR

    HiAOOS will develop, implement, and validate several ocean observing technologies to improve data collection in the ice-covered Arctic Ocean. A network of multipurpose moorings will be deployed for two years in the deep Nansen and Amundsen Basins. The network will provide point measurements of ocean and sea ice and active and passive acoustic data for several applications, including acoustic thermometry, geo-positioning of underwater floats, detection of marine mammals, geohazards and human generate noise. The mooring system will build on the successful basin wide Coordinated Arctic Acoustic Thermometry Experiment-CAATEX experiment and extend the existing Mooring Observations from the Atlantic Water Inflow Experiment (ATWAIN). A new generation of moorings will be developed where data can be transferred to the surface using ROV or winch technology. Ice buoys with new acoustic array technology will be developed for testing of underwater geo-positioning, local navigation networks for glider operations and for localization of geophysical events. These developments will advance several research infra structures with new observing technology and create new opportunities for forefront research. To unlock the capabilities of the new observing system methods and tools will be developed to analyse and visualize the observations for different applications using digital methods and technologies including machine learning. The methods and tools will be ingested into a digital platform blue Insight, and available through Zenodo. Training and use cases will use the platform to train different user groups associated with research infrastructures, research communities and technology developers. All data, methods and tools will be available following the FAIR principles. Field experiments will be carried out every summer from 2024 to 2026, and every field experiment will be assessed with respect to environemntal impact prior to the start of the experiment.

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