1 / 18

ICT Activities in AgroMeteorology

The 26 th APAN, 4-8 August 2008 New Zealand. ICT Activities in AgroMeteorology. 6 August 2008. Byong-Lyol Lee Korea Meteorological Administration. 1. AgroMet eorological Information Components – ICT INFRA. Monitoring. Communications. Products/Applications. User Interface.

raisie
Download Presentation

ICT Activities in AgroMeteorology

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. The 26th APAN, 4-8 August 2008 New Zealand ICT Activities in AgroMeteorology 6 August 2008 Byong-Lyol Lee Korea Meteorological Administration 1

  2. AgroMeteorological Information Components – ICT INFRA Monitoring Communications Products/Applications User Interface

  3. Data Grid GTS/WIS K*GRID eScience GRID Computing • Data • Access WAMIS GISC DCPC NCAR NCDC TIGGE WIS-WAMIS Computation • Research KMA/KISTI UNIDAT (V) GISC Data Broker GDS WAMIS Grid Portal User Interface GridSphere SIMDAT Climate Projection SIP GDAPS / GME RDAPS / GME : WRF Mesoscale model Nowcasting Historical (Legacy) data Non-Meteorological Data END-USERS LAS MME Pilot Projects SIMDAT WAMIS UNIDAT . . . . AMBER DSSAT GIS RS LDAS/LIS Flux, GHG Surface Flux Vegetation Soil Profile WMO Information System WAMIS Grid Portal Applied Meteorology WIGOS WMO Integrated GOS APCC Data Architecture Network GEOSS UserInterface ES2 Earth System eScience Korea OBS Process Earth System Impact Assessment FeedBack Decision-Making

  4. Hierarchy of WAMIS Grid Portal

  5. Implementation Strategy of WAMIS Web Portal information sharing XML-based service : standard schema development Machine translation : multi-lingual interfaces Operational applications based on Web service architecture Tutorial interfaces for real practices GRID Portal Resource sharing Forecast-based AgMet Services for researcher / extension Benchmarking on AMBER (DWD), expanding with DSAT NCAR (GDAS, MM5), DWD (GME, LM) as NWPs Super ensemble of Seasonal Forecasts (APCC / KMA, etc.) GISC / vDCPC dedicated to WAMIS will be established (NCAR, DWD) LIS (NASA) as a framework for LSM (GDS / LAS + GRID) [ ET 1.3 pilot project uCAgM project WAMIS grid portal FWIS pilot project WIS pilot project ]

  6. WAMIS Grid Portal Structure User Requirements (Semantic Web) Decision-Making Support Operational Products Simulation Models Detailed Digital Forecast Ubiquitous Communication G/R-Server WAMIS Grid Portal Web Service GISC METASERVER RDF/OWL DCPC Data/Production RDF/OWL KMA ONTOBROKER MetBroker CAgM USA DWD DB PARSER RDF/XML METGRID Non-WMO Meteorological Information NCAR APCC ESGII

  7. WAMIS Metadata Management Scheme User Requirements (Web Service) Decision-Making Support Operational Products Simulation Models Detailed Digital Forecast Ubiquitous Communication METADATA DATABASE RDF/OWL MetBroker Ontology Metadata Registry Service RDF/XML Data Transformation Service Grid DB Driver XML DB Driver XML Tern HortPlus DB Driver XML DB Driver XML FieldServer AMeDAS

  8. Extended WMO Metadata Core Profile - CAgM Keywords Prototypes of Extended WMO Metadata Core Profile

  9. Hierarchy of Key Words & in XML- CAgM Hierarchy of weather elements RDF/OWL presentation

  10. Ontology using extended Keywords- CAgM

  11. WAMIS Grid Portal Operational Infrastructure

  12. USN-based Integrated Observation Network (’09~)

  13. RAII - WIGOS/WIS WIGOS WMO Integrated GOS In-situ Remote sensing Weather Observation Network : e.g. WWW/GOS, AMDAR, ASAP etc. Atmospheric composition observing network : e.g. GAW etc. Radiation observing networks : e.g. BSRN Standardization Integration Marine meteorological networks and arrays : e.g. VOS, ARGO, etc. Hydrological observing networks : e.g. components of WHYCOS etc. Climate components of atmos-, oceano-, terres- observing systems : Flux WIS National level GEONETCast Regional level Global Earth Observation System of Systems Climate Change Monitoring Outcomes Tall Tower Observation - Data standardization at global scale - GEOSS supporting hub - WIGOS regional center - GEOSS demonstration site Water Cycle Monitoring Global WIGOS Reference Site Boundary Layor Monitoring GHG Background Monitoring Climate Change Landmark

  14. GEOSS & WMO

  15. GISC METASERVER RDF/OWL DCPC Data/Production RDF/OWL G/R-Server WAMIS Grid Portal Web Service WIS - DCPC – WAMIS – WIGOS - GEOSS ES2 Earth System WIS WIGOS WMO Integrated GOS WIS WIS Impact Assessment 氣象/氣候 環境影響評價 Emergence Response 國家/地域 非常對應體系 WIS WIS WIS GEO Center DCPC-WAMIS WIS WIS WIS Pilot Project NCAM

  16. KMA-WIS Environment within COMIS-III

  17. Sufficient GRID Resources (ICT) Ad hoc Network for real-time observation AgroMeteorological tools (Models) Dedicated DCPC/GISC to CAgM Metadata implementation in CAgM Non-meteorological data management Collaborations with member countries Collaborations with GEOSS as bridge Capacity Building in AgMet ICT Issues to Consider Multilingual Translation (Language) 17

  18. Thank You ! 18

More Related