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IN-04 C1

IN-04 C1. Yacine Ghamri-Doudane , IEEE. IN-04: GEOSS Communication Networks.

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IN-04 C1

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  1. IN-04 C1 Yacine Ghamri-Doudane, IEEE

  2. IN-04: GEOSS Communication Networks • Description:Enhance timely and reliable access to, and delivery of, Earth observation and information from all Societal Benefit Areas. In particular, address access issues in developing countries. Consider the collection of satellite and in-situ data, the transfer of data and products between relevant agencies, and the dissemination of data and products to users. Make use of relevant technology including the Internet, wireless communication (fixed and mobile) networks (e.g. satellite, cellular, WiFi, WIMAX), broadband land connections, and satellite-based direct-broadcast systems independent from ground-based telecommunications infrastructures.

  3. C1: Worldwide Communication Network of Networks • Priority Actions: • Expand GEOSS' worldwide network capability and capacity to: (i) gather Earth observation data from sensors and instruments via mobile and fixed devices, and (ii) for data and information dissemination, utilizing interconnected networks based on satellite, fixed land-based and mobile/wireless communication. Provide capabilities such as user access and data exchange and dissemination services in response to users’ and providers’ needs • Establish methods for network access to a wide range of existing and newly developed sensors and instruments using automated sensor discovery, access, data handling and processing, data quality and sustainability, metadata annotation and support for calibration • Explore integration of sensor web, model web, cloud computing and “big data analytics” technologies, with an emphasis on predictive analytics • Establish a set of demonstrators as well as a framework for demonstrators that will include data collection and access in different regions, including under-served regions (e.g. through mobile phone networks, Internet of Things technology, all sorts of wired/wireless links, mesh networks, satellite networks, etc.) • Build upon and integrate existing systems and ensure operational exchange of data, information and warnings in Societal Benefit Areas (SBA).

  4. CurrentProjects (GEOSS IN-04 C1)

  5. Key 2014 Outputs Air Quality RD (resp. q.) UV Thermal comfort Acoustic comfort User perception Photo/video Accelerometry Processing Input Output GML JSON XML KLM RDF GEORss/XML Models Phone apps Web Portals GEOSS Collecting Model transformation Data fusion SemanticAnnotation WFS SOS REST

  6. WFS Approved data sets Cross Tasks GEOSS Architecture Implementation Pilot – Phase 7 (AIP-7) Discover/ Link Models GEOSS Portal Citizens Observatories Community portals Ongoing DAB Report on GEOSS Community portals Search • Portals / • Mobile applications GEOSS Clearinghouse

  7. Use of GEOSS registered data • Collaboration within other FP7 projects, CO. • Data Access • Data Sharing • Data Registration • Share experiences, competencies

  8. Challenges, Issues, and Gaps Hindering Progress Security Data quality/ validity Sensitive info Register relevant data Knowledge of the technical necessities and GEOSS support GEOSS Competence GEOSS Benefits Identify relevant GEOSS resources

  9. Suggestions • Raise awareness of benefit • AIP-7 • Citizens' Observatories projects • Gather all info on one place, easy access • Simple guidelines • Webify reports • Examples • Code snippets • Demos

  10. CITI-SENSE Mirjam Fredriksen, NILU Arne J. Berre, SINTEF Alena Bartonova, NILU

  11. CITI-SENSE Implementation CITI-SENSE project, grant agreement nº: 308524

  12. CITI-SENSE Architecture

  13. CITI-SENSE and GEOSS CITI-SENSE Observatory GEOSS/INSPIRE/Member State Common Infrastructures User Empowerment Social media Citizen Participation Protocol for Citizen Empowerment GEO Portals Registries Components & Services Web Apps, Mobile Apps, GEO-PORTALS, REPORTING Discovery Service CITI-SENSE Products and Services Discovery & View Application Standards & Interoperability Business Process Tier Metadata editor Best Practices User & Rights Management Registers: Ontologies App Schemas ….. User Requirements GEOSS Clearinghouse Workflow Management & Orchestration (Service Chaining) Vocabularies Uncertainty Handling & Provenance Semantic Annotation, Mediation & Discovery Data Composition & Fusion Services Visualisation & Portrayal Services Model Transformation & Model-as-a Service Sensor Platform Tier In situ/Mobile Sensors Smart Phone Mobile Sensors Data Access Tier Mobile Devices, Apps, VGI Intelligent Gateways OGC Web Services (WFS, WCS, SOS) Event Services (WS-N, SAS, SES) Linked Data Services Download Services Wi-Fi Bluetooth Low Energy (BLE) Adaptive Sensors (ThingML, Contiki, TinyOS, …)

  14. Big GeospatialEnvironmental Data Value PartnershipWorkshop and Questionnaire, Brussel February 19., 2014 Strength Opportunities • Existing Ecosystems • Available Geo resources and assets • Available Data portals • INSPIRE, Copernicus and GEOSS were stated as important data ecosystems by 87.1%, 43.3% and 40.0% of the participants Environmental monitoring/sensing, social media and industrial processing were stated as important domains for combination with geospatial/environmental data by 94.1% and 73.5.7% and 41.2 % of the participants, SWOT Weaknesses Threats Access to affordable big data facilities, visibility of ecosystem service offerings and access to affordable cloud resources were stated as likely market barriers in the next five years by 56.7%, 43.3% and 40.0% of the participants • Market/competition • Data availability policies • Availability of skilled geospatial big data scientists, engineers and researchers

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