Summary

2. Summary • Project Overview • Concept and Objectives • Methodology • Work Plan • Consortium presentation • Project Implementation • Management structure • Milestones and Reviews • Potential Impact • Strategic impact • Dissemination plan • Project Effort and Costs

3. Project Overview • Call Identifier FP7-SPACE-2013-1 • Funding scheme Small or medium-scale focused research project • Proposal number 606738 • Activity 1.1-07_GMES Remote Sensing Methods

4. Project Overview Concept and Objectives APhoRISM is aimed at • developing innovative Copernicus products derived from the integrated use of Space- and Ground-based data to support the management and mitigation of seismic and volcanic risk • providing new tools for managing seismic and volcanic crisis • exploiting available and upcoming (e.g. Sentinel missions) instruments for achieving better performances in terms of accuracy and quality.

5. Project Overview Methodologies Two methodologies for satellite Earth Observation (EO) and ground data integration are proposed: 1- The first concerns the development of products for volcanic ash detection and estimation. 2- The second concerns the generation of maps of seismic damage.

6. Project Overview MACE - Multi-platform volcanic Ash Cloud Estimation • A new set of ash cloud products for volcanic crisis management. • Integration of all the available information on volcanic ash clouds in the widest possible spectral range, from VIS to MW. • Ash detection is extended to the case of cloudy atmosphere or steam plumes.

7. Project Overview MACE - Multi-platform volcanic Ash Cloud Estimation The basic idea of MACE is to provide the best achievable volcanic ash products by continuous update and integration of all the ash retrievals obtained using GEO and LEO satellites and ground-based systems. Input products: GEO and LEO space- and ground-based retrievals in VIS-TIR-MW spectral range

8. GEO Space Time Collocation Dataset generation Project Overview LEO 1 LEO 2 Preprocessing Retrieval Integration LEO n RET COL INT PRE Ground 1 Ground 2 Ground n MACE - Multi-platform volcanic Ash Cloud Estimation GEO LEO Ground Based MACE temporal flow diagram Time INT COL PRE INT INT COL COL PRE PRE RET RET RET

9. Project Overview MACE - Multi-platform volcanic Ash Cloud Estimation • Test events • MACE ash products will be tested on three recent eruptions representative of different eruption styles in different clear or cloudy atmospheric conditions : • Eyjafjallajokull (Iceland) 2010 • Grimsvotn (Iceland) 2011 • Etna (Italy) 2011-2012 Validation Satellite sensors ash products retrievals are compared in the MACE integration that can be seen as a continuous validation process.

10. Project Overview MACE - Multi-platform volcanic Ash Cloud Estimation

11. Project Overview APE - A Priori information for Earthquake damage product • a novel procedure addressing the detection, analysis and estimate of changes to buildings and infrastructures • a procedure providing maps of damage due to earthquakes • APE aims at reducing false alarms on satellite change detection maps, which originate from different factors (e.g. shadows and sun illumination in optical images, changes in looking angle, and speckle in SAR images)

12. Project Overview APE - A Priori information for Earthquake damage product Using an integrated approach with a set of a-priori information and surface change detection maps by satellite images (optical and/or SAR) • A-priori information is derived from: • soil vulnerability scenarios (preparedness phase): • InSAR velocity maps (from Persistent Scatterers Interferometry (PSI) • geological information (site effects, microzonation, slope instabilities) • building vulnerability to finalize the Vulnerability Scenario • Shakemaps for selected test areas

13. Project Overview APE - A Priori information for Earthquake damage product Outcome: LIDaM – Likelihood Index Damage Map

14. Project Overview APE - A Priori information for Earthquake damage product • Test event • The method will be tested on the 2009 L’Aquila (Italy) earthquake • Validation • The validation of the procedure will be performed, possibly, on a non European case study, • the 2010 Haiti earthquake ?? • the 2003 Bam, Iran earthquake ?? • or more recent earthquakes: Pakistan 2013, Iran 2012, China 2012, Turkey 2011, China 2011, …

15. Project Overview APE - A Priori information for Earthquake damage product • Optical VHR satellite: • QuickBird • WorldView 1&2 • GeoEye • Ikonos • Pleiades

16. Project Overview Work Plan

17. Project Overview Work Plan

18. Project Overview Work Plan 2014 2015 2016 J J J J

19. Project Overview Consortium presentation

20. Project Overview 2 Consortium presentation • The Institute of Geomatics is a public consortium made up of the Autonomous Government of Catalonia and the Technical University of Catalonia.

21. Project Overview 3 Consortium presentation

22. Project Overview 4 Consortium presentation Department of Information Engineering, Electronics and Telecommunication, Sapienza University of Rome • 65 professors and researchers • 16 technical and administrative personnel • 30 research contractors • PhD students • DIET carries out research and teaching activities covering many aspects of Information and Communication Technology: • electronics, • optoelectronics and laser applications, • communication systems, • radiofrequency, • information theory, • signal and image processing, • radar and navigation systems, • electromagnetic industrial and medical app. • Earth observation and remote sensing, • antennas and radio propagation, • multimedia systems and biotechnologies.

23. Project Overview 4 Consortium presentation DIET

24. Project Overview 5 Consortium presentation Gamma Remote Sensing Research and Consulting AG (GAMMA) is a private company (Aktiengesellschaft) registered in Switzerland and owned by its employees. Primary business: Research and development, processing and adding value to remote sensing data, license sales for its commercial processing software, and microwave hardware development and manufacture. GAMMA's competence encompasses: SAR processing, interferometry, differential interferometry, geocoding as well as fully integrated product generation from EO-data.

25. Project Overview 6 Oxford Physics- AOPP- Earth Observation Data Group (EODG) Gregory McGarragh (AATSR ash) Elisa Carboni (IASI ash) Lucy Ventress (IASI, ash) Don Grainger • Retrievals Using High Resolution Infrared Spectral Measurements • Limb observations: MIPAS • Nadir: IASI (volcanic ash and SO2) • Retrievals Using Nadir Imager Radiometers • - Optimal Retrieval of Aerosols and Cloud (ORAC): AATSR, SEVIRI, MODIS. • Laboratory, Modelling and Field Studies • Aerosol spectroscopy, refractive index measurements • Software and Databases: Reference forward model (RFM), MORSE, Mie code, ARIA (aerosol refractive index database) More info here: http://www.atm.ox.ac.uk/group/eodg/

26. Project Overview 7 Consortium presentation ALMA Sistemisas di DiIorioAlessio & C is an Italian SME established in 2005 providing high level consultancy in the space and defence market. ALMA operates in high-value, high technology areas focusing on helping clients to exploit new technologies and management styles in the Aerospace, Engineering, Research and IT sectors. ALMA provides services in the following area of the space market: • Business Development & Market analysis • Project and Proposal Management • System and Software Engineering ALMA has contributed in behalf of its international clients to a number of key space projects funded by the European Commission, European and Italian Space Agencies as well as SMEs and prime industries. In the Aphorism project ALMA Sistemisas contributes to: • WP 6 “Exploitation and Market Analysis” as WP leader • Support to WP 7 “Dissemination” and WP 8 “RTD Coordination”.

27. Project Implementation Management structure

28. Project Implementation Management structure • The Steering Committee (SC) is in charge for the operational management (decision process, information flows, problems solving). • The SC is composed by two different figures: the administrative and financial coordinator and the technical coordinator. • The SC is led by INGV (partner 1), who represents the consortium, Partner 2 (IG) and Partner 3 (BRGM), supporting the SC leader in the management tasks: meeting management, reporting, communication between partners, intranet management.

29. Project Implementation Management structure • The Administrative and financial coordination focuses on the reporting, payments, contractual aspects, ensuring the appropriate administrative and financial execution of the project. • The Technical coordination ensures the effective and high-quality execution of the project, as well as the timing and project schedule.

30. Project Implementation Management structure • The General Board (GB) is composed by one representative for each contracting partner. • It will meet yearly to discuss the project implementation and achievements. • The General Board is chaired by partner 6 UOXF. • The GB will take into account the input of the European Commission and of the Advisory Group and will act as bridge among all the governance bodies of the Consortium.

31. Project Implementation Management structure • The GB will be in charge of: • Confirm the documents periodically produced by the SC through the project development. • To decide on the strategic issues that could arise during the project implementation. • Collect the outcomes from the operational team.

32. Project Implementation • Milestones and Reviews

33. Project Implementation • Milestones and Reviews

34. Project Impact Strategic impact • APhoRISM aims at addressing the needs of the EU to develop advanced technologies, best practices and tools to provide affordable and more effective solutions to specific priority areas. • European actionsto preserve the human habitat and its economic activities from the environment emergencies have been performed for achieving more effective methodologies and solutions. • Safety of civil aviation and impact management of earthquake damages are two priority areas. This is testified by the impact of recent dramatic events in Iceland (volcano eruption in 2010) and L’Aquila (Earthquake 2009), and outside Europe.

35. Project Impact Strategic impact • APhoRISM has then received letters of endorsement from the Italian Dept. of Civil Protection, Meteo France and the Department of Urban Environment System (Japan) • The Meteo France Volcanic Ash Advisory Center is designated by the International Civil Aviation Organization to provide expertise to civil aviation in case of significant volcanic eruptions

36. Project Impact Dissemination • to whom? • to Technical Audience • through specialized workshops, scientific papers, newsletters • to User Community • end-user events or conferences • to Istitutional Audience • specific conferences and/or workshops of EU Space sector • to the wider Public • project website, newsletters

37. Project Effort and Costs Indicative effort by activity type per beneficiary Note that the efforts are mainly foreseen in RTD activities being RTD pms 230 with respect a total pms of 257.

38. Project Effort and Costs Indicative PM per WP per Beneficiary

39. Project Effort and Costs Budget Breakdown Project Effort vs Costs

40. Project Effort and Costs Pre-financing Distribution