Loss Modeling for 2017 Sarpol-e Zahab Earthquake
Iranian Seismological Center (IRSC) (2017) Magnitude 7.3, Kermanshah Province 2017. Available from: http://irsc.ut.ac.ir/newsview.php?&eventid=125729&network=earth_ismc__.
USGS (2018) M 7.3 - 29 km S of Halabjah, Iraq 2017. Available from: https://earthquake.usgs.gov/earthquakes/eventpage/us2000bmcg#moment-tensor.
Tatar, M., Ghaemaghamian,M., Yamini-Fard, F., Hesami-Azar,K.,Ansari,A., and Firoozi, E. (2018) 2017 Sarpol-e Zahab Earthquake Report - Seismology Aspects. IIEES.
Road Housing & Urban Development Research Center (2017) Sarpol-e Zahab. Available from: http://smd.bhrc.ac.ir/Portal/fa/BigQuakes/Details/125.
GEM (2013) Earthquake Model of the Middle East Region (EMME) WP4: Seismic Risk Assessment.
Mansouri, B., Kiani, A., and Amini-Hosseini, K. (2014) A Platform for earthquake risk assessment in Iran case studies: Tehran scenarios and Ahar-Varzeghan earthquake. Journal of Seismology and Earthquake Engineering, 16(1), 51-69.
Coburn, A.W., Spence, R.J., and Pomonis, A. (1992) Factors determining human casualty levels in earthquakes: mortality prediction in building collapse. Proceedings of the First International Forum on Earthquake Related Casualties, Madrid, Spain.
United Nations Institute for Training and Research. Available from: www.UNITAR.org.
Google Crisis Map, Iran-Iraq Earthquake.
Seymoradi, H. (2018) Debris Monitoring Field Supervisor of Housing Foundation of Islamic Revolution, Personal Communication.
Hoseini Hashemi, B., Mansouri, B., Kalantari, A., and Sarvghad-Moghadam, A. (2018) 2017 Sarpol-e Zahab Earthquake Report-Structures and Life Lines. IIEES.
Risk Management Solutions (RMS) (2015) What is Catastrophe Modeling? [cited 2018; Available from: http://www.rms.com/blog/2015/06/22/what-is-catastrophe-modeling/.
Allen, T.I. and Wald, D.J. (2009) On the use of high-resolution topographic data as a proxy for seismic site conditions (VS30). Bulletin of the Seismological Society of America , 99(2A), 935-943.
Worden, C.B., Wald, D.J., Sanborn, J., and Thompson,E.M. (2015) Development of an open-source hybrid global VS30 model. Seismological Society of America Annual Meeting. Pasadena, California.
Akkar, S., Sandikkaya, M., and Bommer, J. (2014) Empirical ground-motion models for point-and extended-source crustal earthquake scenarios in Europe and the Middle East. Bulletin of Earthquake Engineering, 12(1), 359-387.
Campbell, K.W. and Bozorgnia, Y. (2008) NGA ground motion model for the geometric mean horizontal component of PGA, PGV, PGD and 5% damped linear elastic response spectra for periods ranging from 0.01 to 10 s. Earthquake
Spectra, 24(1), 139-171.
Chiou, B.S.-J. and Youngs, R.R. (2014) Update of the Chiou and Youngs NGA model for the average horizontal component of peak ground motion and response spectra. Ear thquake Spectra, 30(3), 1117-1153.
Akkar, S. and Cagnan, Z. (2010)Alocal groundmotion predictive model for Turkey, and its comparison with other regional and global ground-motion models. Bulletin of the Seismological Society of America, 100(6), 2978-2995.
Wells, D.L. and Coppersmith, K.J. (1994) New empirical relationships among magnitude, rupture length, rupture width, rupture area, and surface displacement. Bulletin of the Seismological Society of America, 84(4), 974-1002.
Oak Ridge National Laboratory, http://web.ornl.gov/sci/landscan.
Mansouri, B. and Amini-Hosseini, K. (2012) Development of residential building stock and population databases and modeling the residential occupancy rate for Iran. Natural Hazards Review, 15(1), 88-94.
- There are currently no refbacks.