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IEEE

IEEE FRANCE SECTION
Country: France
11 Projects, page 1 of 3
  • Funder: European Commission Project Code: 869673
    Overall Budget: 2,021,010 EURFunder Contribution: 2,003,010 EUR

    CAPARDUS is a CSA project under H2020 with focus on capacity-building to develop guidelines, practices and standards in selected Arctic topics. These include data collection and management related to natural resource management, tourism, safety, community planning and decision making. The project develops a framework for development of standards as a collaborative effort between scientists, local communities and other stakeholder groups involved in the case studies in Greenland and Svalbard, with contribution from studies in Alaska and Yakutia in Russia. The project organizes a number of workshops, dialogue meetings and research schools as part of case studies in local communities, showing how the social-environmental systems are changing Arctic communities and what are the drivers for these changes. The climate change and its consequences in the Arctic leads to new requirements for planning and decision-making based on scientific and economic data, assessments and predictions. A prerequisite for good planning is access to data and information of relevance to the operators in the Arctic. CAPARDUS promotes and supports the Community-Based Monitoring and Citizen science as a contribution to data collection and knowledge building. The project will provide requirements and recommendations for an Arctic Practice System to the benefit of both local communities and other actors in the Arctic. At the end CAPARDUS will summarize the emergence of guidelines, practices and standards, supporting a sustainable development in the Arctic.

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  • Funder: European Commission Project Code: 101214613
    Overall Budget: 1,875,620 EURFunder Contribution: 1,875,620 EUR

    CS-MACH1 aims to overcome existing barriers to citizen science empowerment, such as accessibility, recognition, trust, and sharing of marine citizen science data, by establishing and managing a Marine Citizen Science Data Network (MCSDN) of and for citizen science initiatives, community representatives, cost-efficient technology developers, data management experts, and scientists. To support the production of FAIR data and the integration of citizen science data into EU platforms like EMODnet, CS-MACH1 will produce standards, best practices for deployment and data management, observation protocols for using cost-effective devices, and training materials to guide citizen science coordinators in managing their data flow. The value chain of the MCSDN will be demonstrated by addressing local challenges in real-world use-cases, co-designed with end-users and used for beta testing innovations and the proposed data flow. The scientific and societal impacts of the MCSDN will be demonstrated through the validation of Digital Twin Ocean models, policy workshops, and extended dissemination of results to attract and empower a larger number of marine citizen science actors and citizen scientists. A roadmap outlining strategies for a continuous workflow will ensure the sustainability of the project's outcomes and the legacy of the network.

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  • Funder: European Commission Project Code: 641538
    Overall Budget: 999,996 EURFunder Contribution: 999,996 EUR

    ConnectinGEO’s primary goal is to link existing coordinated Earth Observation networks with science and technology (S&T) communities, the industry sector and the GEOSS and Copernicus stakeholders. The aim is to facilitate a broader and more accessible knowledge base to support the needs of the GEO Societal Benefit Areas (SBAs) and their users. A broad range of subjects from climate, natural resources and raw materials, to the emerging UN Sustainable Development Goals (SDGs) will be addressed. A tangible outcome of the project will be a prioritized list of critical gaps within the European Union in observations and the models that translate observations into practice-relevant knowledge. The prioritized list will include the research activities required to address these gaps. Ultimately, this will increase coherency of European observation networks, increase the use of Earth observations for assessments and forecasts and inform the planning for future observation systems through a sustainable approach that will survive beyond the end of this project. ConnectinGEO has 4 major objectives: a) Enable a European Network of Earth Observation Networks (ENEON) including space-based, airborne and in-situ observations networks. b) Provide a methodology to convert the knowledge needs into a coherent observation and measurement compendium for ENEON strategy and development. c) Apply the ConnectinGEO methodology to identify and assess the priority of gaps. d) Open the results of the project and exploit them beyond the project end.

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  • Funder: European Commission Project Code: 101216427
    Overall Budget: 5,791,540 EURFunder Contribution: 5,670,370 EUR

    Changes and variability in ocean biogeochemistry are poorly observed despite its profound impacts on ocean ecosystems and associated services, and sensitivity to and for climate. The overall aim of BioGeoSea is to significantly close the research and knowledge gaps on biogeochemical Essential Ocean Variables (BGC EOVs), validate them in-situ and in models, and use them to feed ocean metrics in the form of indicators and data products that reflect their relevance to the society. This aim includes updating EOVs requirements and specifications to enhance their usefulness in providing ocean biogeochemistry indicators, which BioGeoSea will develop and deliver. These indicators will reflect different spatial and temporal scales, and be focused around: 1) ocean acidification; 2) ocean deoxygenation 3) the biological carbon pump; and 4) greenhouse gas fluxes. BioGeoSea will: 1) improve the requirement setting of BGC EOVs; 2) Improve the observational capability of BGC EOVs over a large range of temporal and spatial scales; 3) Provide better representation of biogeochemical processes in models and more accurate predictions; 4) Improve ocean BGC data products that are invaluable to understand complex ocean phenomena; 5) Deliver ocean BGC indicators and engage actively with stakeholders. Key results will be communicated to international networks and entities for endorsement, approval and efficient dissemination of the outcomes. This project will help to better observe and deliver biogeochemical ocean data and information, and ultimately advance our understanding about ocean health and its role in climate regulation. BioGeoSea will demonstrate the importance of long-term observations of the ocean, focusing on BGC EOVs. The quality of information from all BGC EOVs will be improved, and four innovative BGC indicators will be delivered, at a technological readiness level that responds to the needs of an economically viable and healthy society.

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  • Funder: European Commission Project Code: 101136548
    Overall Budget: 6,083,530 EURFunder Contribution: 5,996,900 EUR

    Ocean observing is executed and financed by nations according to their national interest and needs, but aligned with European and international agreements and directives. ObsSea4Clim brings together key European and international actors within ocean observing science, climate assessment, Earth System modelling, data sharing and standards, with users of oceanographic products and services with the goals of: - improving sustained and multipurpose observations vital to European and global climate requirements, and - delivering an improved observation framework based on EOV/ECVs and embedded in a Rolling Review of Requirements approach. ObsSea4Clim will: - improve regional and global climate assessments and - provide projections and actionable indicators for sustainable development provided. The work program is organized around four building blocks (TRL7-8): 1- the EOV/ECV concept, 2- the regional ocean indicator concepts, 3- the nations’ multi-purpose (climate, services, ocean health) ocean observing, 4- the integration with European and global initiatives. ObsSea4Clim will make use of ocean climate application areas such as: sea ice loss, ocean transports, stratification, sea level, ocean warming and marine heat waves and ocean mesoscale. Regional observing will be transformed into an EOV/ECVs framework suitable for regional and global climate products, ESM development (CMIP7) and indicators. ObsSea4Clim will also link to the Mission Restore our Ocean 2030 lighthouse basins. AI methods will control data quality and unlock EOV/ECVs from existing data repositories. ObsSea4Clim will promote the implementation of FAIR/CARE data, enabling and advocating their use for versatile applications and referenced to an EOV/ECV framework. ObsSea4Clim will actively lead the dialogue with European and international climate and data initiatives to ensure the necessary exchanges for implementing the ObsSea4Clim results into the international system. In this way, ObsSea4Clim will ensure sustained EU leadership in the ocean–climate–biodiversity science nexus at a global level.

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