An automated model for optimizing budget allocation in earthquake mitigation scenarios
Tóm tắt
Từ khóa
Tài liệu tham khảo
Abbasi MR, Shabanian E (1999) Fault map of north Tehran. International Institute of Earthquake Engineering and Seismology, Tehran
Altay G, Deodatis G, Franco G, Gulkan P, Kunreuther H, Lus H, Mete E, Seeber N, Smyth A, Yuzugullu O (2002) Benefit-cost analysis for earthquake mitigation: evaluating measures for apartment in Turkey. In: Proceedings 2nd annual IIASA-DPRI meeting. International Institute for Advanced Systems Analysis, Laxenburg
Amini-Hosseini K, Jafari MK (2006) Seismic risk assessment for Tehran. J Seismol Earthq Eng 9(1):11–21
Amini-Hosseini K, Jafari MK (2007) Development guidelines for disaster management in Tehran. In: Proceeding of 5th international conference on seismology and earthquake engineering. Tehran, Iran
Amini-Hosseini K, Hosseini M, Jafari MK, Hosseinioun S (2009) Recognition of vulnerable Urban fabrics in earthquake zones: a case study of Tehran metropolitan area. J Seismol Earthq Eng (JSEE) 10(4):175–187
Applied Technology Council (ATC) (1985) ATC-13 earthquake damage evaluation data for California. Applied Technology Council, Redwood City
Askari F, Kasaei M (2003) Evaluation of liquefaction potential in part of South-East Tehran. J Eng Sch Tehran Univ 37(2):257–268
Berberian M, Yeats RS (2001) Contribution of archaeological data to studies of earthquake history in the Iranian Plateau. J Struct Geol 23:563–584
Chang SE, Shinozuka M, Moore JE (2000) Probabilistic earthquake scenarios: extending risk analysis methodologies to spatially distributed systems. Earthq Spectr 16(3):557–572
Dodo A, Xu N, Davidson R, Nozick L (2005) Optimizing regional earthquake mitigation investment strategies. Earthq Spectr 21(2):305–327
Federal Emergency Management Agency (FEMA) (1997) NEHRP guidelines for the seismic rehabilitation of buildings, FEMA 273, prepared by Building Seismic Safety Council, Washington
Federal Emergency Management Agency (FEMA) (2000) Pre-standard and commentary for the seismic rehabilitation of buildings, FEMA 356, prepared by American Society of Civil Engineering, Reston
Ghafory-Ashtiany M (2001) Tehran earthquake risk reduction plan. I.R. Housing Foundation, Tehran
Ghafory-Ashtiany M, Jafari MK (2003) Tehran geotechnical microzonation, Conference. SEE4, Tehran
Ghafory-Ashtiany M, Jafari M K, Shadi Talab J, Eshghi S, Qurashi M (1992) Tehran vulnerability analysis. In: Tenth world conference on earthquake engineering. Balkema, Rotterdam
Gholipour Y, Ghorashi M, Talebian M, Nazari H, Berberian M, Bozorgnia Y, Shoja Taheri J, Shafiei A, Rahnama M (2006) Comprehensive seismic hazard analysis of Iran: probabilistic and deterministic seismic hazard analysis, attenuation study and seismic design spectra—phase 1: Greater Tehran, College of Engineering, University of Tehran
HAZUS-FEMA Technical Manual (2003) Multi-hazard loss estimation methodology, Earthquake model, HAZUS-MH MR1, Washington
Hessami K, Jamali F, Tabassi H (2003) Active fault maps of Iran, Seismotectonic Dept., Seismology Research Center. IIEES, Iran
Hosseini M (2006) Protecting Tehran against earthquake: issues and strategies in Urban planning and design. J Seismol Earth Eng (JSEE) 9(4):32–43
Jafari MK, Amini-Hosseini K, Hosseini M, Kamalian M, Askari F, Razmkhah A, Davoodi M, Mahdavifar MR, Sohrabi Bidar A, Keshavarz Bakhshayesh M (2005) Seismic hazard study, final report for Tehran comprehensive plan, International Institute of Earthquake Engineering and Seismology, IIEES, Iran
Japan International Cooperation Agency (JICA) (2000) The study on seismic microzoning of the greater Tehran area in the Islamic Republic of Iran, final report to the Government of the Islamic Republic of Iran, Tokyo
Japan International Cooperation Agency (JICA) and Tehran Disaster Mitigation and Management Center (TDMMC) (2004) The comprehensive master plan on urban seismic disaster management for the greater Tehran area in the Islamic Republic of Iran, Tokyo
Japan International Cooperation Agency (JICA) and Tehran Disaster Mitigation and Management Organization (TDMMO) (2010) Establishment of emergency response plan for the 1st 72 h after an earthquake in Tehran. Tehran
Kappos AJ, Dimitrakopoulos EG (2008) Feasibility of pre-earthquake strengthening of buildings based on cost-benefit and life-cycle cost analysis, with the aid of fragility curves. Nat Hazards 45:33–54
Kunreuther H, Cyr C, Grossi P, Tao W (2001a) Using cost-benefit analysis to evaluate mitigation for lifeline systems, MCEER Research Progress and Accomplishments 2000–2001, MCEER, Buffalo
Kunreuther H, Grossi P, Seeber N, Smyth A (2001b) A framework for evaluating the cost-effectiveness of mitigation measures, joint workshop of Urban Riks Management for Natural Disasters, Bogazici University/Columbia University, Istanbul, Turkey
Lupoi G, Franchin P, Lupoi A, Pinto PE, Calvi GM (2008) Probabilistic seismic assessment for hospitals and complex-social Systems. IUSSpress, Pavia
Management and Planning Organization (2007) Instruction for seismic rehabilitation of existing buildings, No. 360, Prepared by the Bureau of technical criteria codification and earthquake risk reduction affairs, Iran
Mansouri B, Ghafory-Ashtiany M, Amini-Hosseini K, Nourjou R, Mousavi M (2010) Building seismic loss model for Tehran using GIS. Earthq Spectr 26(1):153–168
Mid-America Earthquake Center (2009) Impact of new Madrid seismic zone earthquake on central USA, vol 1, report no. 09–03. University of Illinois
Miller TR (2000) Variation between countries in value of statistical life. J Transp Econ Policy 34(2):169–188
Nutti C, Vanzi I (1998) Assessment of post-earthquake availability of hospital system and upgrading strategies. Earthq Eng Struct Dyn 27:1403–1423
Shah H, Bendimerad F, Stojanovski P (1992) Resource allocation in seismic risk mitigation. In: Proceedings 10th world conference on earthquake engineering, vol 4. Madrid, pp 6007–6011
The Sphere Project (2004) Humanitarian charter and minimum standards for DISASTER response. The Sphere Project, Geneva