Real time earthquake shaking maps for Greece
Name of the provider (company name or main contact name), or FIRE IN ID ? Vasiliki Kouskouna, National and Kapodistrian University of Athens
CCC addressed
- Develop public self-protection to minimize responders exposures (TOP CHALLENGE)
- Involve communities in preparing population for the worst scenario before it happens (TOP CHALLENGE)
- Focus on sustainability of safe operations (TOP CHALLENGES)
- Information cycle
- Manage key information focused on decision-making
- Provide an efficient, flexible flow of information for a shared understanding
- Forecast and simulate complex scenarios
- Get a clear picture of the risk evolution
- Technological tools to support data sharing
Scope, rationale, context: general description. Precise here if this technology is currently use (eg. company name or contact info) The main concept of the technological tool is to create Peak Ground Acceleration Maps (Linear and rotational) in real-time in a few seconds up to two minutes after the earthquake occurrence and automatic calculation of its main parameters (earthquake epicenter, magnitude, focal depth and origin date & time). Peak ground acceleration (PGA) and peak ground rotations (PGR) are provided for research and operational purposes to respective bodies and to the general public. PGA and PGR are calculated through regional models calibrated for Greece and data from stations. The system is unique in terms of calculating PGR worldwide. In addition, the version currently running presents the results in vector format, has multiple options as basemap and multiple regional models embedded. The system works 24/7/365. Technical and scientific details are provided in the following sections. These maps may serve for the real-time delineation of the potentially damage area. This, coupled with population exposure and vulnerability of buildings and infrastructure, will provide a quick estimate of the overall expected damage, as well as of the necessary first response operations.
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Short description of the solution. Technical details if relevant. Keywords.
Since 2015 (first version) in the framework of the “Greco-Risks - Hellenic Natural-Hazards Risk-Management System of Systems” project. The work of constant upgrade continues under the framework of the HELPOS research project. Currently, in its latest version, calculates and creates ground shaking maps of Peak Ground Acceleration (PGA) and Peak Ground Rotations (PGR) based on Ground Motion Prediction Equations (GMPEs) for Greece. Shaking maps are created and published online for earthquakes with magnitudes M≥3.8. For shallow earthquakes five regional GMPEs are used for the calculation of PGA and one GMPE for the rotational components (torsion and rocking). Regional GMPES are calibrated with Hellenic earthquakes. The algorithm estimates the fault type (normal, thrust, strike-slip) of the earthquake based on the Hellenic seismicity and tectonic zones on real-time. Soil types (rock, stiff soil, soft soil) are known based on the geotechnical map of Greece.
The innovation of the algorithm is that PGR are calculated for the first time worldwide and the output maps are in a vector map. Currently, for reducing computing effort the grid calculates PGA and PGR in distances up to 100km around the earthquake epicenter in a grid of about 4.5km X 4.5km. The algorithm is written in Matlab. RSS standards are used. Results are updated every 1 (one) minute. The algorithm is in operational mode for about five years and has proved a valuable tool.
The latest upgrade was the interoperability with other infrastructure of NKUA and can read the recordings of the seismological stations. The user can zoom in and out the map and click on a specific grid point or a seismological station in order to see the exact value of PGA and PGR. Also, the user can select from multiple regional seismic models. Outputs are provided in html format, readable by any computer with a simple browser, compatible with all famous web browsers.
TRL of the proposed solution - Innovation stage (if applicable) 9: System Test, Launch & Operations
Web addresses/URL of flyers and information Real-time shaking maps for Greece
Attachment (file) ege2019_poster_v4.pdf (2 MB)
Attachment (file) Real-time_poster_FINAL_noS.pdf (2 MB)
Expected/scheduled future developments
Generic comments
References:
Kouskouna, V., Kaviris, G., Pomonis, A., Kallidromitou, D., Kassela, A., Bonazountas, M., Makropoulos, K., Cholevas, K., Lagios, E., Kyriakopoulos, K., Drakatos, G., Sakkas, V., Dellino, P., Sakkas, G., Sakellariou, N. and I. Misailidis, (2014) “Greco-Risks” Hellenic Natural -Hazards Risk- Mitigation System (a Real Time Operational Platform). 2nd European Conference on earthquake Engineering and Seismology, Istanbul, Aug, 25-29, 2014 (Poster Session).
Sakkas, G., Kouskouna, V., Kaviris, G., Sakellariou, N., & I., Misailidis (2018) A Real-Time PGA and PGR Distribution Application or Greece. 36th General Assembly of the European Commission, 2-7 September 2018, Valletta-Malta (Poster Session).
Sakkas, G., Kouskouna, V., Kaviris, G., Sakellariou, N., and Misailidis, I. (2019). Real-Time Shaking Maps of PGA and PGR in Greece. Proceedings of the 15th International Congress of the Geological Society of Greece. Athens, 22-24 May 2109.