Characteristics And Results Of The Near Real-Time System For Estimating The Seismic Damage In Romania

[1] National Institute for Earth Physics (January 2014). Romplus Earthquake Catalogue.Search in Google Scholar

[2] Bucharest Local Administration (May 2014). List of expertised buildings. Retrieved May 2014, from http://www.pmb.ro/servicii/alte_informatii/lista_imobilelor_exp/docs/Lista_imobilelor_expertizate.pdfSearch in Google Scholar

[3] Gandul Newspaper (November 2013). The map of buildings that can collapse in an earthquake similar to the one in 1977. Retrieved May 2014, from http://storage0.dms.mpinteractiv.ro/media/1/186/3927/11538171/3/risc-seismic.pngSearch in Google Scholar

[4] Lungu C. (2012). Evaluarea fondului de cladiri din Romania in perspectiva aplicarii directivei 2010/CE/31; Conferinta Internationala despre Constructii Sustenabile si Eficienta Energetica. Retrieved May 2014 from http://www.euroconferinte.ro/prezentari/Tema1-17.pdfSearch in Google Scholar

[5] Lang D., Molina-Palacios S., Lindholm C., Balan S.F. (2012). Deterministic earthquake damage and loss assessment for the city of Bucharest, Romania. Journal of Seismology, 16, 67-88. DOI: 10.1007/s10950-011-9250-y10.1007/s10950-011-9250-ySearch in Google Scholar

[6] Erduran E., Toma-Danila D., Aldea A. et al. (2012). Real Time Earthquake Damage Assessment in Romanian-Bulgarian Border. 15 World Conference on Earthquake Engineering, Lisbon, PortugalSearch in Google Scholar

[7] Molina, S., Lang, D.H., Lindholm, C.D., Lingvall, F. (2010). SEismic Loss EstimatioN using a logic tree Approach (SELENA) [computer software]. Norway: NORSAR.Search in Google Scholar

[8] Federal Emergency Management Agency (FEMA) (2004). Multi-hazard Loss Estimation Methodology, Earthquake Model, Advanced Engineering Building Module (HAZUS-MH) [computer software]. Washington DC: FEMASearch in Google Scholar

[9] Boore, D. M., W. B. Joyner, and T.E. Fumal (1997). Equations for Estimating Horizontal Response Spectra and Peak Accelerations from Western North American Earthquakes: A Summary of Recent Work, Seism. Res. Lett., 68,128-153.10.1785/gssrl.68.1.128Search in Google Scholar

[10] Sokolov, V., Bonjer, K.P., Wenzel, F. (2004). Accounting for site effect in probabilistic assessment of seismic hazard for Romania and Bucharest: a case of deep seismicity in Vrancea zone. Soil Dynamics and Earthquake Engineering, 24, 929–947. DOI: 10.1016/j.soildyn.2004.06.02110.1016/j.soildyn.2004.06.021Search in Google Scholar

[11] Douglas, J., Cotton, F., Abrahamson, N., Akkar, S., Boore, D.M., Di Alessandro. C. (2011). Pre-selection of ground-motion prediction equations. Global GMPEs Project, deliverable: Task 2Search in Google Scholar

[12] Toma-Danila D., Zulfikar C., Manea E.F., Cioflan C.O. (2015) - Improved seismic risk estimation for Bucharest, based on multiple hazard scenarios and analytical methods; Soil Dynamics and Earthquake Engineering, accepted for publishing.10.1016/j.soildyn.2015.02.013Search in Google Scholar

[13] Cattari S., Curti E., Giovinazzi S., Lagomarsino S., Parodi S., Penna A. (2004) - Un modello meccanico per l'analisi di vulnerabilita del costruito in muratura a scala urbana. 11th Conference “L'ingegneria Sismica in Italia”, Genova, Italy.Search in Google Scholar

[14] Toma-Danila D. (2012) – Real-Time Earthquake damage assessment and GIS analysis of two vulnerable counties in the Vrancea Seismic Area, Romania; Environmental Engineering and Management Journal, 11 (12), 2265-2274. WOS:000314169000018Search in Google Scholar