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GEOSS Architecture Implementation Pilot (AIP) 15 th ADC Meeting • Brazil February/March 2011

GEOSS Architecture Implementation Pilot (AIP) 15 th ADC Meeting • Brazil February/March 2011. George Percivall Open Geospatial Consortium Task lead AR-09-01B. GEO Task AR-09-01b Architecture Implementation Pilot.

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GEOSS Architecture Implementation Pilot (AIP) 15 th ADC Meeting • Brazil February/March 2011

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  1. GEOSS Architecture Implementation Pilot (AIP)15th ADC Meeting • BrazilFebruary/March 2011 George Percivall Open Geospatial Consortium Task lead AR-09-01B

  2. GEO Task AR-09-01bArchitecture Implementation Pilot • Support SBAs by developing new process and infrastructure components for GCI and the broader GEOSS architecture • Demonstrate and document results to inform GEOSS Development Baseline progress “fostering interoperability arrangements and common practices for GEOSS”

  3. AIP Evolutionary Development Phases has piloted the GEOSS 10 Year Plan Architecture • AIP-1  • Kickoff: June 2007 • Result: "Core" Architecture defined most of the GCI IOC – Architecture Workshop • AIP-2  • Kickoff: September 2008 • Result: SBA implementations of common cross-cutting architecture • AIP-3 • Kickoff: March 2010 • Result: Enabled data sharing and network building in GEOSS SBA communities

  4. GEOSS Architecture Implementation Pilot, Phase 3 (AIP-3) Build on GCI and Community Services Refine SBA Scenario process Results in time to support Ministerial Summit

  5. AIP-3 Results • Informatics Areas • Engineering Use Cases • Data Harmonization • Vocabularies and Semantics • Data Sharing • SBAs Areas • Energy • Disaster Management • E-Habitat • Arctic SDI • Water Drought • Air Quality

  6. AIP coordination: SBAs

  7. AIP Reusable Process for SBA Integrators • Scenarios: end user view of the value of GEOSS • Focused on topics of interest to a community • Occur in a geographic Area of Interest (AOI) • Steps in a scenario are mapped to Use Cases • Engineering Use Cases support SBA Scenarios • Use cases for discovery, data access, etc • Utilize Standards & Interoperability Arrangements • Reusable service oriented architecture • Leverages ‘operational domain value’ through interoperable services

  8. AIP Use Cases

  9. Components deploy Services Main GEO Web Site GEOSS Common Infrastructure Registered Community Resources Client Tier Registries GEO Web Portal Community Portals Client Applications Components & Services Standards and Interoperability Mediation Tier Best Practices Wiki GEOSS Clearinghouse Community Catalogues Mediation Servers Alert Servers User Requirements Workflow Management Processing Servers Test Facility Access Tier GEONETCast Product Access Servers Sensor Web Servers Model Access Servers

  10. GEOSS Information framework GEOSS SoA Information Viewpoint

  11. Architecture Progress and AIP-3 Results • Bold vision endorsed 5 years ago • Architecture vision has now been demonstrated • Ministers should invest in their agency’s developments consistent with GEOSS plan http://www.ogcnetwork.net/geoss/aip-3/

  12. Discussion of Progress made in AIP-3 • Role of SBA Integrator • Add ontology registry to GCI; mediators for searching • Geo-processing using WPS • Data Brokers for hosting data as web services • Improving Data Quality: QA4EO and UncertML

  13. DRAFT Schedule and Priorities GEOSS AIP Phase 4 (AIP-4) SBAs: Increasing implementation of GEOSS with CoPs Data: Foster access to EO Priority Observations consistent with Data-CORE and Interoperability Arrangements. GCI: contribute to improving usability

  14. Community of Interest/Practices and AIP • Communities of Practices in AIP-4: • Integrated Global Water Cycle Obs. • Energy • Air Quality • Biodiversity • Global Agricultural Monitoring? • Geohazards? Community of Interest: Birds of a feather, discussion group Service Providers: Data, Observation, Mediation, Processing Community of Practice: Chartered to meet Decision Supportneeds SBA/CoP Integrator GCI CoP Science Community • SBA/CoP Integrator • Lead AIP CoP WG • Liaison from AIP to CoP • Expert in SBA science and geoinformatics • Lead application of GEOSS architecture to CoP

  15. CoPs supported by AIP • Objective: Work with CoPs to increase network building and data sharing • Role of the SBA Integrator • Builds network through Community Portal, using CoP toolkit and other information and services to meet the needs of the community • Build on the best practices and interoperability arrangements. • CoP Toolkit • Community Portals and Application Clients for DSS needs • Community Catalogues • Priority Data Servers for SBA

  16. SBAs for AIP-4 • Established • Disaster Management • Energy • Health: Air Quality • Water Drought • Arctic SDI • Biodiversity and Climate Change • New in AIP-4 • Agriculture • Climate/Weather

  17. Make priority data fully available as services Sbageotask.larc.nasa.gov GEOSS CORE-Priority EO Parameter Access Services US-09-01a Critical Earth Observation Priorities Highest Ranked EO Parameters Priority EO Parameters available as CORE Compare the 2 lists AIP-4 Access Services Pilot No cost recovery in AIP-4 DSTF GEOSS Data-CORE Roadmap Datasets tagged as CORE (Pledge List) DIAS connection to this emphasis? GTHN – Global terrestrial Hydro Network CORE = full and open with no restrictions. No data reuse conditions. There may be cost and attribution requirements.

  18. Data Harmonization in AIP-4 (Herve updates) • Uncertainty – GeoViqua, UncertWeb • QA4EO - CEOS • Data Schemas – INSPIRE • Test Facility for validating schemas GEOSS SoA Information Viewpoint

  19. AIP-4 Data Sharing (Steve Browdy w/ DSTF) • User Management • User registration, identity: OpenID, etc. • User login: GCI and Data provider impact • Metrics collection • Data Access Conditions • Data Access Conditions: • Non-Commercial Use • Attribution • Other restrictions/conditions not handled • Data provider change to metadata • Machine-to-machine processing • Disclaimers • Let a user know when they are leaving GEO site

  20. Semantic Mediation (Cristiano, Nagai) • Coordination with GEO task AR-09-01d on semantic mediation issues • Support to the optimization and extension of the GI-DAC service broker • Integration and harmonization of thematic thesauri with reference ones: • Water Ontology from AIP-3 • Drought Vocabulary from EuroGEOSS • GLOWASIS (GMES project) • More contributions are welcome…

  21. EC FP7 Projects Participating in AIP • Current in AIP-3 • EnerGEO • EO2Heaven, • EuroGEOSS, • GENESIS • GIGAS • GIS4EU • SAFER • UncertWEB • New contributions possible: • ISTIMES - DM • DEWFORA- Drought • ENDORSE: Energy Services for GMES • GeoViQua • GLOWASIS - Water • (Current GCI call)

  22. References • GEO • earthobservations.org • GEO Architecture Implementation Pilot • www.ogcnetwork.net/AIpilot • GEOSS registries and SIF • geossregistries.info George Percivall percivall@myogc.org

  23. AIP-4: Disaster Management • The features of decision making in response phase • unpredictable • semi-structured to unstructured • transnational Cloud Computing Infrastructure Resources Geo Portal Services Registration Search Access Execute Access Interact with Services Standard Services (Hadoop-based) Clients Encapsulating WPS (OGC-compliant ) Cloud/Grid computing will be a good solution to support the semi structured to unstructured decision making at a specific service level GEOSS SoA Enterprise Viewpoint

  24. AIP-4: Energy • AIP-2 & AIP-3 established capacity to disseminate Energy and Environment related Web Services • Focus for AIP-4: • Provide end-user with Quality and Uncertainties parameters • framework for building Graphical User Interface for remote Web Services (WMS, WFS and WPS) in operational services such as SoDa • Collaboration with GCI to ensure consistent dissemination and presentation of Energy and Environment data sets on the GEO Portal

  25. Health: Air Quality (Stefan/NGC, EO2Heaven) • Durban Scenario from EO2Heaven, ground sensors and remote sensors. GEOSS SoA Enterprise Viewpoint

  26. Climate/Weather SBA • CSIR South Africa has volunteered to lead the Climate/Weather SBA thread - though more weather, less climate in a very much Sensor Web like fashion, i.e. weather as SBA and technical focus on Sensor Web aspects, such as SWE profiles for weather. • CSIR will bring a number of services to AIP-4 in terms of weather and are interested in building something bigger. • sensor services serving weather station data (hosted by the South African Agricultural Research Council (ARC)), and the South African coastal ocean data (hosted by the CSIR) with a view to building a CoP for (global) Weather data.

  27. GEOSS Architecture Implementation Pilot, Phase 4, GEO Water Tasks Will Pozzi and George Percivall GEO Task WA-06-02b, Impacts of Drought, Co-POC and NASA WaterNet Project Manager, and Open Geospatial Consortium, GEO Task AR-09-01b Task POC Presentation before the 2010 GEO Drought Response Initiative, Winnipeg, CA, 10 May 2010 www.ogcnetwork.net/AIP

  28. Proposed Decision Making Services in the Final GEO Water Societal Benefit Area Workplan (discussed within IGWCO and Doug Cripe) Global Drought Monitoring and Early Warning Service courtesy of Justin Sheffield, Princeton, African Drought Monitor

  29. Proposed Decision Making Services in the Final GEO Water Societal Benefit Area Workplan (discussed within IGWCO and Doug Cripe) Cryosphere Monitoring Service Architecture courtesy of USA NOAA National Office of Hydrology Remote Sensing Center (NOHRSC)

  30. Drought Early Warning requires assembly within an information system (GEOSS) the uses of water, so that drought vulnerability can be assessed or included Agricultural use, cooling water for power generation, domestic use, environmental flow requirement for ecosystems Soil Moisture in the European Union Europe Drought Observatory: agricultural impact (http://edo.jrc.ec.europa.eu/php/index.php?action=view&id=19)

  31. Agriculture-Crop Condition Monitoring (Liping Di) • Crop condition information is critical to decision making in both public and private sectors that concern agricultural policy, production, food security, and food prices. • Crop conditions change quickly due to changes of various growing conditions, such as temperature, soil moisture, fertilization, or disease, etc. • Timely and repeat monitoring with a full spatial coverage and sufficient spatial resolution throughout the growing season is necessary. • Satellite remote sensing provides the best method to monitor crop condition globally. • Conditions are measured by comparing the current vegetation indices derived from remote sensing to multiple-year statistics of the indices (e.g., Mean, Maximum, Minimum, Medium, etc). • Multiple nations and organizations are monitoring the crop conditions. • Standardizing the condition measures and serving the measures to global users under GEOSS framework will be meaningful • Participants: GMU, USDA NASS, Chinese Academy of Agricultural Science.. GEOSS SoA Enterprise Viewpoint

  32. Biodiversity and Climate Change (CNR and USGS) • Continue the collaboration with EC-JRC (G. Dubois) Digital Observatory of Protected Areas (DOPA) enhancing the AIP-3 eHabitat Pilot • Continue the collaboration with NASA JPL (G. Geller) working on interoperability and data/model integration • Try to contribute also to the GEO Model Web sub-task (AR-09-02d) GEOSS SoA Enterprise Viewpoint

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