1. Stefano Nativi 1, Paolo Mazzetti 1 and Marco Verlato 2 1 Italian National Research Council-IMAA 2 INFN CYCLOPS Project CYber-Infrastructure for CiviL protection Operative ProcedureS OGC-OGF Collaboration Workshop (Barcelona, 3 June 2008)

2. nativi@imaa.cnr.it 2 Outline CYCLOPS Overview The proposed Architectural Framework – Towards a CP Cyber-infrastructure (e- Infrastructure) The RISICO the Use Case – Spatial Data Infrastructure (SDI) services implementation

3. nativi@imaa.cnr.it The CYCLOPS Project 3 CYber-Infrastructure for CiviL protection Operative ProcedureS EGEE Specific Support Action (FP6 – Research Infrastructures) Duration – 28 months (01/06/2006 – 30/09/2008) – We asked for two more months Management – Project Management: Italian Civil Protection Department – Technical Management: Italian National Research Council Keywords – GMES, GRID, Geospatial information, Civil Protection, Geoinformatics (Earth Science Informatics) Collaboration with: – PREVIEW, Risk EOS, RISK-AWARE, BOSS4GMES, DEGREE, EGEE

4. nativi@imaa.cnr.it The CYCLOPS Project objective 4 to bridge the gap between Grid and GMES communities EGEE Support Action to bridge the gap between Grid and GMES communities making Civil Protection people be aware of the services provided by Grid infrastructures, and, at the same time, letting Grid researcher to be aware of Civil Protection specific requirements and service enhancement needs.

5. nativi@imaa.cnr.it Participants 5 Civil Protection Agencies – ANPC (Autoridade Nacional de Protecção Civil) – CP-CH (Civil Protection of Chania Prefecture) – DDSC (Direction de la Défense et de la Sécurité Civiles) – DPC (Dipartimento della Protezione Civile) Scientific/Technological partners (GRID and GI communities) – ARMINES-LGEI (Ecole Nationale Supérieure des Techniques Industrielles des Mines d’Alès) – IMAA-CNR (Istituto di Metodologie per l’Analisi Ambientale del Consiglio Nazionale delle Ricerche) – INFN (Istituto Nazionale di Fisica Nucleare) – TEI-CR (Technological Educational Institute of Crete) – UMINHO (Universidade do Minho)

6. nativi@imaa.cnr.it CYCLOPS Activities 6 Definition of research and innovation strategies Definition of research and innovation strategies – Research strategies for enabling CP applications on Grid infrastructure EGEE Request for Enhancements – Guidelines for CP innovation towards the adoption of Grid technologies Cross-dissemination between GRID (EGEE) community and GMES (Civil Protection) community. Cross-dissemination between GRID (EGEE) community and GMES (Civil Protection) community. – Seminars, workshops, tutorials directed to CP personnel – Reports to EGEE Working Groups Interoperability experiments to implement standard geospatial information services on the top of GRID middleware Interoperability experiments to implement standard geospatial information services on the top of GRID middleware – OGF – OGC Interoperability experiment for EGEE

7. nativi@imaa.cnr.it 7 Use Case #1: Wild Fires Risk Assessment Operational application of the Italian CP Linked to the PREVIEW GMES service

8. nativi@imaa.cnr.it 8 Use Case #2: Flood Forecast Operational application of the French CP Linked to GMES flash flood anticipation service

9. nativi@imaa.cnr.it 9 CP & GMES Requirements Civil Protection and GMES applications/systems have specific requirements: real-time (RT) or near-real-time (NRT) way – to access infrastructure, run models and search information in a real-time (RT) or near-real-time (NRT) way privileging time of response instead of accuracy – to control sensors networks and acquisition systems – to control sensors networks and acquisition systems and modify their acquisition strategy and processing chain – to share geospatial information – to share geospatial information that has complex characteristics: Huge amounts of remotely-sensed observations, which are multidimensional and frequently updated formalise the knowledge – To formalise the knowledge required to analyse data and provide decision-makers with effective information strict data policy and the security requirements – To implement the strict data policy and the security requirements typical of dual systems (civil/military);

10. nativi@imaa.cnr.it Towards a CP Cyber- infrastructure (e-Infrastructure) The proposed Architectural Framework 10

11. nativi@imaa.cnr.it CYCLOPS vision: Communities Interoperability 11 GMES & CP Communities Earth System Information Community GRID Community Resource Provision Geospatial Services Strategic Applications Application Domain Semantics GRID Infrastructures Geospatial Info Infrastructures CP/GMES Platform

12. nativi@imaa.cnr.it 12 CYCLOPS Research Strategy Conceive a complete Grid-based platform underpinning Geospatial Information services to support Civil Protection/GMES applications The CYCLOPS platform The CYCLOPS platform

13. nativi@imaa.cnr.it 13 CYCLOPS Architectural Framework CYCLOPS Platform CYCLOPS Infrastructure Spatial Data Infrastructure Services Processing Systems Infrastructure Data Systems GRID Platform (EGEE) Security Infrastructure Real Time and Near Real Time Applications for Civil Protection (Data integration, high-performance computing and distributed environment for simulations) Real Time and Near Real Time Applications for Civil Protection (Data integration, high-performance computing and distributed environment for simulations) Interoperability Platform Advanced Grid Services Business logic Services Presentation and Fruition Services Environmental Monitoring Resource Infrastructure Geospatial Resources Services Instruments

14. nativi@imaa.cnr.it Geospatial Resource Services 14 Geospatial resource service tiers GI Resources Discovery services based on ISO 19115 profiles CS-W WMS Thematic Portals View services Virtual Globe Services Presentation services Processing Services WPS Processing Services WFS WCS WMS Access and Download services

15. nativi@imaa.cnr.it THE INTEROPERABILITY EXPERIMENTS The Spatial Data Infrastructure (SDI) services implementation for the Use Cases

16. nativi@imaa.cnr.it 16 Use Case #1: Wild Fires Risk Assessment Linked to the PREVIEW GMES service

17. nativi@imaa.cnr.it The RISICO (RISchio Incendi e Coordinamento) application mazzetti@imaa.cnr.it 17 Italian Civil Protection Department (DPC) application for wild fires risk assessment RISICO is the Italian Civil Protection Department (DPC) application for wild fires risk assessment CIMA Designed and developed by the CIMA (International Centre for Environmental Monitoring) Research Foundation wild fires risk assessment model RISICO implements a wild fires risk assessment model (based on the Canadian Fire Weather Index – FWI) providing a daily potential fire danger 1km square risk maps It currently runs once a day providing 1km square risk maps over the entire Italy surface

18. nativi@imaa.cnr.it Legend RISICO Flow Diagram 18 Derived parameters Output parameters Input parameters The system is made of two main models: fuel moisture models the fuel moisture models potential fire spread model the potential fire spread model

19. nativi@imaa.cnr.it G-RISICO: Porting RISICO onto the CYCLOPS Platform 19 CYCLOPS Infrastructure Spatial Data Infrastructure Services Processing Systems Infrastructure Data Systems GRID Platform (EGEE) Advanced Grid Services Business logic Services Presentation and Fruition Services Geospatial Resources Services Instruments Presentation Services – GUI services for user interaction Business Logic services – RISICO model business logic Spatial Data Infrastructure services (grid- enabled) – Input and output data access services: OGC standard WCS (Web Coverage Service) interface and protocol specification; CF-NetCDF standard data format and encoding; – Processing exposing services OGC standard WPS (Web Processing Service) interface and protocol specification; Storage and computational middleware – EGEE gLite middleware;

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21. nativi@imaa.cnr.it Input Data G-RISICO: Service View 21 RISICO Model RISICO Model OGC-WPS Input Data OGC-WCS Output Data OGC-WCS GUI Web Geospatial Community Standard Interfaces

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23. nativi@imaa.cnr.it G-RISICO: Grid View 23 RISICO Model Input Data

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25. nativi@imaa.cnr.it Active sites for G-RISICO prototype (EGEE production GRID) 25

26. nativi@imaa.cnr.it Web Services and Grid Synergy 26

27. nativi@imaa.cnr.it 27 Fire spread rate July 23 06:00 CET Fire spread rate July 23 06:00 CET Fire spread rate July 23 21:00 CET Fire spread rate July 23 21:00 CET

28. nativi@imaa.cnr.it 28 Use Case #2: Flood Forecast Linked to GMES flash flood anticipation service

29. nativi@imaa.cnr.it SPC-GD application (Service de Prevision des Crues- Grand Delta) SPC In France the floods warning services (SPC) perform the dangerous phenomena forecasting SPC-Grand Delta the third downstream of the Rhône river SPC-Grand Delta (SPC-GD) covers the whole tributaries in right and left bank of the third downstream of the Rhône river. French Floods warning service (SPC) is based on: – A network of telemetry – A network of telemetry (recording rain-gauges and water level stations) – Tools of information and weather forecasting – Tools of information and weather forecasting: service Météo +® of Meteo-France; CALAMAR® tool (Rainfall calculation using the Radar); – Tools of modeling: hydraulic models – Tools of modeling: hydraulic models (like ALHTAÏR flash floods forecasting system) allowing to estimate the discharge propagation between two sites.

30. nativi@imaa.cnr.it CYCLOPS platform: main expected benefits grid infrastructure Scalability. The grid infrastructure provides high processing and storage capabilities on-demand, allowing to output data resolution – improve output data resolution Models complexity – improve Models complexity time response – improve the time response – widen the covered area standard geospatial services layer Flexibility&Interoperability. The standard geospatial services layer allow to: new and heterogeneous input data – integrate/assimilate new and heterogeneous input data; output in a higher level application chain – integrate output in a higher level application chain; Models interoperability/composablity – facilitate Models interoperability/composablity interoperable with other “standard-based” infrastructures – be interoperable with other “standard-based” infrastructures (e.g. INSPIRE, GEOSS)

31. nativi@imaa.cnr.it Expected G-RISICO execution times for spatial accuracy Spatial Accuracy [1/m] RISICO stand-alone run G-RISICO single-job G -RISICO multiple jobs Grid overhead Execution Time [s]

32. nativi@imaa.cnr.it Preliminary statistical results for G-RISICO runs (spatial accuracy) G-RISICO 1 job G-RISICO 8 jobs G-RISICO 4 jobs

33. nativi@imaa.cnr.it CYCLOPS main outcomes A reference architecture for the 3 communities interoperability A couple of architecture proofs of concept – Two CP prototypes for operational applications (the two use cases) Definition of research and innovation guidelines toward the design of an e- Infrastructure for Civil Protection applications Definition of research and innovation guidelines toward the design of an e- Infrastructure for Civil Protection applications September-October 2008 September-October 2008

34. nativi@imaa.cnr.it 34 Thank you for your attention !