Integrated National In Situ Observational Network

1. IntegratedNational In Situ ObservationalNetwork Igor Zahumenský Slovak Hydrometeorological Institute

2. Outline • Introduction • Reasonsfor the Integration • Goalsof the Integration • Planningthe Integration • Featuresof an Integrated Network • Management & Information System • Conclusion

3. Why & How ? • Whyto integrate ? • Reasons &Benefits • Howto integrate ? • Step-by-step integration of individual system components

4. Reasons for the Integration

5. Synoptic data users Synoptic network S-DPC Aviation data users Aeronautical network A-DPC Climatological data users Climatological station C-DPC

6. Benefits • Integration increases: • Investment efficiency; • System capabilities; • More efficient Observation & Monitoring & Management = Improved Forecasts & Warnings & PWS

7. Profit from Integration can be increased by: • shared exploitation ofanobserving site, • more cost-effective integrated data sets, • an integrated data and network management, • an integrated information delivery system.

8. Goals of the Integration Dominant goals of the ION: • To sustain existing obs.; • To integrate existing and new systems; • To adapt the new system to users’ RQs and needs.

9. The Integration • The integration: an end-to-end process of: • examination, • planning, and • implementation.

10. The Integration (2) • Observing system priorities: • Reliability • Efficiency • Cost effectiveness • Continuity

11. Planning the Integration - steps • Users’ needs & requirements; • Present National Observing System; • Required changes; • Priority criteria; • Initial design of Integrated Obs. System; • Processes to response to RQs and needs; • Strategy and Plan

12. Synoptic network I N T E G R A T E D DPS & DMS & NMS & … U S Aeronautical network E R Climatological station S

13. Integrated W O T R E K N M I S U S E R S

14. Multifunctional Management and Information System

15. The key features of MIS • Provide information essential for decision-making; • Fully automatic & operational nonstop; • Flexible & modular; • Reliable & designed to operate during the most severe weather; • The two-way communication.

16. Network Management Unit

17. ION NMU MIS Metadata Catalogues Procedures, Protocols, Standards, … Data Input Management of NMS Monitoring Remedial Actions QC D D B Products Generation Data Processing Users

18. ION NMU M I S Users Management of NMS

19. ION NMU Metadata Catalogues Procedures, Protocols, Standards, … D D B Data Input USERS

20. ION NMU Metadata Catalogues Procedures, Protocols, Standards, … D D B Data Input QC Monitoring Data Processing USER

21. ION NMU Metadata Catalogues Procedures, Protocols, Standards, … D D B Data Input Remedial Actions QC Monitoring Products Generation Data Processing USER

22. ION NMU Metadata Catalogues Procedures, Protocols, Standards, … D D B Data Input Remedial Actions QC Monitoring Products Generation Data Processing USER

23. Conclusion • Improvement of: • Information provided by ION; • Data & metadata management; • Data accessibility; • System management; • System performance.

24. Conclusion (2) • Reduction of operational costs • Reduction of manpower • Standardization of procedures • Standardization of maintenance

25. Conclusion – success of ION • Provision of the right and useful sets of observational data & products & information for different applications & users; • Implementation of new technology / techniques.

26. I N I S O N Effective • Network of networks • System of systems

27. Thank youforyour attention