A spatial data infrastructure dedicated to the interoperable exchange of meteorological measurements in renewable energies

The 16th Annual Meeting of the European Meteorological Society (EMS) and the 11th European Conference on Applied Climatology (ECAC) will take place 12 - 16 September 2016 in Trieste, Italy. The conference theme is: Where atmosphere, sea and land meet: bridging between sciences, applications and stakeholders

Towards the creation of a European Network of Earth Observation Networks within GEO. The ConnectinGEO project

ConnectinGEO (Coordinating an Observation Network of Networks EnCompassing saTellite and IN-situ to fill the Gaps in European Observations " is a new H2020 Coordination and Support Action with the primary goal of linking existing Earth Observation networks with science and technology (S&T) communities, the industry sector, the Group on Earth Observations (GEO), and Copernicus. ConnectinGEO aims to facilitate a broader and more accessible knowledge base to support the needs of GEO, its Societal Benefit Areas (SBAs) and the users of the Global Earth Observing System of Systems (GEOSS). A broad range of subjects from climate, natural resources and raw materials, to the emerging UN Sustainable Development Goals (SDGs) will be addressed. The project will generate a prioritized list of critical gaps within available observation data and models to translate observations into practice-relevant knowledge, based on stakeholder consultation and systematic analysis. Ultimately, it 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. ConnectinGEO will initiate a European Network of Earth Observation Networks (ENEON) that will encompass space-based, airborne and in-situ observations networks. ENEON will be composed by project partners representing thematic observation networks along with the GEOSS Science and Technology Stakeholder Network, GEO Communities of Practices, Copernicus services, Sentinel missions and in-situ support data representatives, representatives of the space-based, airborne and in-situ observations European networks (e.g. EPOS, EMSO and GROOM, etc), representatives of the industry sector and European and national funding agencies, in particular those participating in the future ERA-PlaNET. At the beginning, the ENEON will be created and managed by the project. Then the management will be transferred to the network itself to ensure its future continuity. ConnectinGEO's main goal in ENEON is to mature a consultation complemented by a systematic analysis of available data and metadata, which will draw for the first time a coherent picture of the variety of used data interfaces, policies and indicators. This way, the project will stimulate a harmonized and coherent coverage of the European EO networks, reemphasizing the political strategic targets, create opportunities for SMEs to develop products based on the current networks, and open avenue for industry to participate in investments addressing the identified high-priority gaps

D5.1. Common criteria in the project stakeholder and industry challenges

Report gathering the common challenges criteria to be applied in the project through the stakeholder and industry challenges pilot cases

D3.3 : Mid term revision of the data management plan

The Data Management Plan (DMP) will be reviewed as requested in http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/hi/oa_pilot/h2020-hi-oa-data-mgt_en.pdf. The review will be conducted in collaboration with WP1 and WP5. The deliverable will include the outcome of task 3.3. Publisher ConnectinGEOConsortiu

Real-time embedded video denoiser prototype

International audienceLow light or other poor visibility conditions often generate noise on any vision system. However, video denoising requires a lot of computational effort and most of the state-of-the-art algorithms cannot be run in real-time at camera framerate. Noisy video is thus a major issue especially for embedded systems that provide low computational power. This article presents a new real-time video denoising algorithm for embedded platforms called RTE-VD [1]. We first compare its denoising capabilities with other online and offline algorithms. We show that RTE-VD can achieve real-time performance (25 frames per second) for qHD video (960x540 pixels) on embedded CPUs with an output image quality comparable to state-of-the-art algorithms. In order to reach real-time denoising, we applied several high-level transforms and optimizations. We study the relation between computation time and power consumption on several embedded CPUs and show that it is possible to determine find out frequency and core configurations in order to minimize either the computation time or the energy. Finally, we introduce VIRTANS our embedded real-time video denoiser based on RTE-VD

D7.1. Plan for disseminating and communication of the project's results

The Dissemination and Communication Plan will set out the details of the different types of dissemination activities to be undertaken during the project lifetime. In addition to the dissemination approach that will be applied, this deliverable also provides the necessary guidance for an efficient dissemination strategy. The Plan identifies communicating objectives and goals, the target audience, the message, medium and means and the timeline for communicating actions. D7.1 is a way to reinforce this activity in GEOSS (http://www.geo-tasks.org/geoss_portfolio) by trying to stimulate the ENEON to participate in it

D3.4 : Report on observations, measurements and gaps in observation systems reported by the communities

Report on the list of observations, measurements, gaps, sensors, procedures, and practices used currently or expected in the future in observation systems reported by the communities. It also includes the Citizen science workshop report (WS4). D6.2 will contain more elaborated material based on this document and the other methodologies of the project