1 / 9

Technology Subgroup Report

WGISS. Technology Subgroup Report. WGISS-29 Bonn, 2010 Nataliia Kussul. Web Services IG Report. Support CWIC development and implementation with the goals: To establish CWIC as a Web service

lynna
Download Presentation

Technology Subgroup Report

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. WGISS Technology Subgroup Report WGISS-29 Bonn, 2010 Nataliia Kussul

  2. Web Services IG Report • Support CWIC development and implementation with the goals: • To establish CWIC as a Web service • With the development of what would hopefully become a “standard” interface for inventory search, results and granule-level data access • Eventually to evolve to replace CWIC with member agencies employing the “standard” interface directly to their inventory and data systems • At WGISS #30, explore the possibility of merging the Web Services Interest Group into the WADC Project to encourage and promote focus on CWIC and the development of a “standard” set of Web Services interfaces supporting inventory search, ordering and granule-level access.

  3. Grid IG • Participants: CNES, NSAU, CAS • Projects: • WAG (Wide Area Grid) – Initiated by CNES • Ukrainian-Chinese Grid System for Flood Monitoring • Upcoming activities • Further extending of core architecture within Ukr-Chi jointproject, in particular- certificate support- providing possibilities for transparent cluster usage- MODIS archive visibility within system- automatic queries redirection on both sides

  4. Grid IG input to CEOS Deliverables • Grid IG supports activities for the following CEOS Deliverables6. Health applications6.1.Flood and Disease Sensor Web for Monitoring and Early Warning8. Disaster Management8.1. Caribbean Flood Pilot and Namibia Flooding Demonstrations toinclude directory of available tools, datasets, and methodologies8.2. WGISS can develop a procedure for how agencies can respondquickly to natural disaster events with imagery provision.  GlobalResource Information Database (GRID), web service, sensor web, andother technologies will be applied for efficient/rapid production andmapping of satellite data and maps for disaster response within 24-48hours. • Technology contributions to DI-06-09: Use of Satellites for Risk Management for GEO & GEO DI-09-02b_3 (Namibian Flood Monitoring)

  5. Sensor Web IG WGISS • Supports GEOSS task AR-09-02: Interoperable Systems for GEOSSc) Sensor Web Enablement for In-Situ Observing Network Facilitation (POC: Terence van Zyl) • Technical issues associated with the exploitation of the OGC Sensor  Web Enablement (SWE) Standards are also being investigated (Wyn Cudlip) • Proof of concept is provided for using Sensor Web for tasking and acquiring data from satellites, and Grids for workflow management and data processing • Technology contributions to DI-06-09: Use of Satellites for Risk Management for GEO DI-09-02b_2 (Caribbean Flood Monitoring) & GEO DI-09-02b_3 (Namibian Flood Monitoring)

  6. Sensor Web IG Inputs to Disaster Management WGISS • Namibian Flood Sensor Web Project • Objective: to integrate remote sensing into a flood and water-related disease modeling, monitoring, and early warning and decision support system • Current activity is to submit a proposal for sustaining support to the World Bank June 2010. Components: • WP 1 – Management, coordination, dissemination (MAWF, UN-SPIDER) • WP 2 – Capacity Building, End-user interaction (UNW-DPC, UN-SPIDER) • WP 3 – Flood Sensor Web (NASA lead) • WP 31 – Flood mapping services (NASA/NOAA, USRI, UN-SPIDER, DLR) • WP 32 – Flood forecasting services and hydrological modeling (NASA/NOAA, USRI) • WP 4 – Water-related disease (e.g. malaria) spread modeling (NASA/NOAA, USRI) • WP 5 – Hazard Monitoring and Mitigation System (DLR lead) • WP 51 – Spatial Data Management (DLR) • WP 52 – Multi-Risk Assessment (floods, health/diseases) (DLR, USRI) • WP 53 – Decision Support System (DLR)

  7. WADC Summary • Participants from NOAA, NASA, USGS, UK Space, JAXA, CEODE/CAS (China) • Open invitation to other agencies Activities: • Results of GCI testing: • Identified need for middleware providing a single point of search and access for satellite data • Identified a need to promote the number of and the visibility of community portals that tailor access to data and services needed by specific user communities

  8. WADC Summary (cont) • CEOS WGISS Integrated Catalog (CWIC) Prototype initiated • CWIC will support the GEO supported catalog interface OGC CSW 2.0.2 ISO profile to communicate with GEO and community portals • CWIC will distribute directory searches to the IDN • CWIC will distribute inventory searches to the CWIC partner agency systems using native protocols • CWIC will implement the WGISS Search Criteria v1.0 • CWIC will implement the WGISS Domain Information Model • 1st demo expected in December 2010

  9. WADC Summary (cont) • WGISS Search Criteria for inventory search is being developed with inputs and review by multiple WGISS agencies • WGISS Domain Information Model that defines the information model for satellite data for search and access is being developed. • Participation in the GEO Task 09-01b (Data, Metadata, and Products Harmonization) task. WGISS inputs to harmonization will include WADC outputs such as WGISS Search Criteria v1.0 and the WGISS Domain Information Model. • Need to promote WGISS recommendations to the appropriate GEO committees and tasks by all the WGISS reps.

More Related