1 |
Barbat, A.H., Carreno, M.L., Pujades, L.G., Lantada, N., Cardona, O.D. and Marulanda, M.C. (2010), "Seismic vulnerability and risk evaluation methods for urban areas. A review with application to a pilot area", Struct. Infrastruct. Eng., 6(1-2), 17-38.
DOI
|
2 |
Benedetti, D. and Petrini, V. (1984), "On seismic vulnerability of masonry buildings: proposal of an evaluation procedure", Indust. Constr., 18(2), 66-78.
|
3 |
Benedetti, D., Benzoni, G. and Parisi, M.A. (1988), "Seismic vulnerability and risk evaluation for old urban nuclei", Earthq. Eng. Struct. Dyn., 16(2), 183-201.
DOI
|
4 |
Bernardini, A. (2000), The vulnerability of buildings-evaluation on the national scale of the seismic vulnerability of ordinary buildings, CNR-GNDT, Rome.
|
5 |
Brzev, S., Scawthorn, C., Charleson, A.W., Allen, L., Greene, M., Jaiswal, K. and Silva, V. (2013), GEM Building Taxonomy Version 2.0, 2013., Global Earthquake Model, GEM Technical Report2013-02 V1.0.0.
|
6 |
Coburn, A. and Spence, R. (1992), Earthquake Protection, John Wiley & Sons, Chichester.
|
7 |
Corsanego, A. and Petrini, V. (1994), "Evaluation criteria of seismic vulnerability of the existing building patrimony on the national territory", Ingegneria Sismica, 1, 16-24.
|
8 |
Eleftheriadou, A.K. and Karabinis, A.I. (2013), "Evaluation of damage probability matrices from observational seismic damage data", Earthq. Struct., 4(3), 299-324.
DOI
|
9 |
Eurocode 6 (2005), Design of Masonry Structures. Part 1-1: General rules for reinforced and unreinforced masonry structures, European Committee for Standardization, Bruxelles, Belgium.
|
10 |
Eurocode 8 (2004), Design of Structures for Earthquake Resistance of Structures. Part 1-1: General rules - Seismic Actions and General Requirements for Structures, European Committee for Standardization; Brussels, Belgium.
|
11 |
Grünthal, G. (1998), European Macroseismic Scale 1998, Conseil de l'Europe - Cahiers du Centre Europeen de Geodynamique et de Seismologie, Ed., G. Grunthal, 15, Luxembourg.
|
12 |
Feriche, M., Vidal, F., Jimenez, C. and Navarro, M. (2008), "A straightforward method applicable to Earthquake Damage Scenarios and Early Loss Assessment in urban areas of Southern Spain", 31st General Assembly of the European Seismological Commission ESC, Hersonissos, Crete, Greece.
|
13 |
Giovinazzi, S. (2005), "The vulnerability assessment and the damage scenario in seismic risk analysis", Ph.D. Thesis, Department of Civil Engineering of the Technical University Carolo-Wilhelmina at Braunschweig and Faculty of Engineering Department of Civil Engineering of University of the Florence.
|
14 |
Giovinazzi, S. and Lagomarsino, S. (2004), "A macroseismic method for the vulnerability assessment of buildings", 13th World Conference on Earthquake Engineering, Vancouver, Canada, Paper No. 896.
|
15 |
Isik, E. and Kutanis, M. (2015), "Performance based assessment for existing residential buildings in Lake Van basin and seismicity of the region", Earthq. Struct., 9(4), 893-910.
DOI
|
16 |
Herak, M. (2012), "Hrvatska karta potresne opasnosti", Zbornik radova s IV. Konferencije Hrvatske platforme za smanjenje rizika od katastrofa, Zagreb, 4-12 (in Croatian).
|
17 |
Herak, M., Herak, D. and Markusic, S. (1996), "Revision of the earthquake catalogue and seismicity of Croatia, 1908-1992", Terra Nova, 8(1), 86-94.
DOI
|
18 |
HRN-EN 1998-1:2011 (2011), National Annex to Eurocode 8: design of structures for earthquake resistance - part 1: general rules, seismic actions and rules for buildings. European Committee for Standardization, Bruxelles, December 2004.
|
19 |
Kartografija (2016), http://www.kartografija.hr/tl_files/Hkd/dogadjaji/HKD_2012_MHerak.pdf
|
20 |
Lantada, N., Irizarry, J., Barbat, A.H., Roca, A., Susagna, T. and Pujada, L.G. (2010), "Seismic hazard and risk scenarios for Barcelona, Spain, using the Risk-UE Vulnerability index method", Bull. Earthq. Eng., 8(2), 201-229.
DOI
|
21 |
Markusic, S., Herak, D., Ivancic, I., Sovic, I., Herak, M. and Prelogovic, E. (1998), "Seismicity of Croatia in the period 1993-1996 and the Stone-Slano earthquake of 1996", Geofizika, 15, 83-101.
|
22 |
Markusic, S. and Herak, M. (1999), "Seismic zoning of Croatia", Nat. Haz., 18(3), 269-285.
DOI
|
23 |
Martinez-Cuevas, S. and Gaspar-Escribano, J.M. (2016), "Reassessment of intensity estimates from vulnerability and damage distributions: the 2011 Lorca earthquake", Bull. Earthq. Eng., 1-25.
|
24 |
Preciado, A., Alejandro Ramirez-Gaytan, A., Salido-Ruiz, R.A., Caro- Becerra, J.L. and Lujan-Godinez, R. (2015a), "Earthquake risk assessment methods of unreinforced masonry structures: Hazard and vulnerability", Earthq. Struct., 9(4), 719-733.
DOI
|
25 |
Medak, D., Pribicevic, B., Prelogovic, E. (2007), "Recent Geodynamical GPS-project in Croatia", Raziskaves podroc ja geodezije in geofizike 2006, 12. strokovno srecanje Slovenskega zdruzenja za geodezijo in geofiziko, Ljubljana, Slovenija, January 18.
|
26 |
Milutinovic, Z.V. and Trendafiloski, G.S. (2003), RISK-UE, An advanced approach to earthquake risk scenarios with applications to different European towns, Report to WP4: Vulnerability of current buildings, 109.
|
27 |
Oliveira, C.S. and Mendes Victor, L.A. (1984), "Prediction of seismic impact in a metropolitan area based on hazard analysis and microzonation: methodology for the town of Lisbon", 8th World Conference on Earthquake Engineering, El Cerrito, California, 7, 639-646.
|
28 |
Preciado, A., Orduña, A., Bartoli, G. and Budelmann, H. (2015b), "Façade seismic failure simulation of an old Cathedral in Colima, Mexico by 3D limit analysis and nonlinear Finite Element Method", Eng. Fail. Anal., 49, 20-30.
DOI
|
29 |
Ranjbaran, F. and Hosseini, M. (2014), "Seismic vulnerability assessment of confined masonry wall buildings", Earthq. Struct., 7(2), 201-216.
DOI
|
30 |
Prelogovic, E., Cvijanovic, D., Aljinovic, B., Kranjec, V., Skoko, D., Blaskovic, I. and Zagorac, Z. (1982), "Seismotectonic activity along the coastal area of Yugoslavia", Geoloski vjesnik, 35, 195-207.
|
31 |
Aljinovic, B., Blaskovic, I., Cvijanovic, D., Prelogovic, E., Skoko, D. and Brdarevic, N. (1984), "Correlation of geophysical, geological and seismological data in the coastal part of Yugoslavia", Boll. Oceanol. Teor. Appl., 2, 77-90.
|
32 |
Schwarz, J., Abrahamczyk, L., Leipold, M. and Wenk, T. (2015), "Vulnerability assessment and damage description for R.C. frame structures following the EMS-98 principles", Bull. Earthq. Eng., 13(4), 1141- 1159.
DOI
|
33 |
Skoko, D. and Prelogovic, E. (1989), "Geological and seismic data required for maximum earthquake magnitude determination", Geoloski vjesnik, 42, 287-299.
|
34 |
Tsereteli, N., Arabidze, V., Varazanashvili, O., Gugeshashvili, T., Mukhadze, T. and Gventcadze, A. (2014), Vulnerability Analysis and GIS Based Seismic Risk Assessment Georgia Case, Eds., Teodoresco, H-N., Kirschenbaum, A., Cojocaru, S., Bruderlein, C., Springer, Improving Disaster Resilience and Mitigation - IT Means and Tools, NATO Science for Peace and Security Series C: Environmental Security DOI 10.1007/978-94-017-9136-6_20, Springer Science, Business Media Dordrecht 2014.
DOI
|