CRISIS applications by version

CRISIS2015

Martínez, P. D. Q., & Angulo, E. R. (2016). ESTUDIO DE PELIGRO SÍSMICO DE ECUADOR Y ESPECTROS DE DISEÑO PARA LA CIUDAD DE CUENCA. Revista de Ingeniería Sísmica, (94), 1-26.

Lanzano, G., D’Amico, M., Felicetta, C., Puglia, R., Luzi, L., Pacor, F., & Bindi, D. (2016). Ground‐Motion Prediction Equations for Region‐Specific Probabilistic Seismic‐Hazard Analysis. Bulletin of the Seismological Society of America, 106(1), 73-92. (Note: It is not clear the version of CRISIS that was applied in this project).

R. Azzaro , G. Barberi , O. Cocina , S. D’Amico , R. Gee , H. Langer , S. Lombardo , M.G. Ordaz-Schroeder , B. Pace , F. Panzera, L. Peruzza , A. Saraò , M.L. Suarez , G. Tusa , T. Tuvè. (2015) TOWARDS A NEW GENERATION OF SEISMIC HAZARD MAPS FOR THE VOLCANIC REGION OF MT. ETNA. Atti del 34 Convegno Nazionale. GRUPPO NAZIONALE DI GEOFISICA DELLA TERRA SOLIDA.

CRISIS2014

M.A. Salgado-Gálvez, et al. Evaluación probabilista de la amenaza sísmica de Colombia con fines de actualización de la Norma Colombiana de Diseno˜ de Puentes CCP-14, Rev. int. métodos numér. cálc. diseño ing. 2015. http://dx.doi.org/10.1016/j.rimni.2015.07.001

CRISIS2012

M. Ezzelarab, M.M.F. Shokry , A.M.E. Mohamed , A.M.A. Helal , Abuoelela A. Mohamed , M.S. El-Hadidy (2016) Evaluation of seismic hazard at the northwestern part of Egypt

Journal of African Earth Sciences 113. 114-125

Mario G. Ordaz , Omar-Darío Cardona , Mario A. Salgado-Gálvez , Gabriel A. Bernal-Granados , Shri Krishna Singh, Daniela Zuloaga-Romero (2014) Probabilistic seismic hazard assessment at global level

International Journal of Disaster Risk Reduction 10. 419–427

CRISIS2008

Palumbo, P., Gramiccia, L., Cardellicchio, S., Faccioli, E., Villani, M. (2011). Garigliano nuclear power plant: seismic evaluation of the turbine building. WIT Transactions on The Built Environment; 120: 207-223.

Stucchi, M., Meletti, C., Montaldo, V., Crowley, H., Michele Calvi, G. (2011). Seismic Hazad Assessment (2003-2009) for the Italian Building Code. Bulletin of the Seismological Society of America; 101(4): 1885-1911.

Villani, M., Demartinos, K., Vanini, M., Facciolo, E. (2010). Application of ground shaking scenarios to PSHA and risk assessment in near field; Proceedings of the 14th European Conference on Earthquake Engineering, August 30-September 03, Ohrid, Republic of Macedonia, 7 pp.

CRISIS2007

Aguilar, A., Pujades, L., Barbat, A., & Lantada, N. (2009, June). A probabilistic model for the seismic risk of buildings. Application to urban areas. In Proceedings of the Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering. Papadrakakis, M., Lagaros, ND, Fragiadakis, M.(eds.) (pp. 22-24).

Aguilar, A., Pujades Beneit, L., Barbat Barbat, H. A., & Lantada Zarzosa, M. D. L. N. (2010). A probabilistic model for the seismic risk of buildings: application to assess the seismic risk of buildings in urban areas.

Al-Arifi, N. S., Fat-Helbary, R. E., Khalil, A. R., & Lashin, A. A. (2013). A new evaluation of seismic hazard for the northwestern part of Saudi Arabia.Natural hazards, 69(3), 1435-1457.

Benito, B., Gaspar-Escribano, J. M., Tévar, J. M., Garcia, M. J., & Jiménez, E. (2004, August). The EXPEL code for probabilistic seismic hazard analysis and uncertainties evaluation. In Proceedings of 13th World Conference on Earthquake Engineering, Vancouver.

Benito Oterino, B., Gaspar Escribano, J. M., Rivas Medina, A., Martínez Díaz, J. J., Rodriguez, O., & Ramírez, M. S. (2011). Evaluación de la peligrosidad sísmica en España para aplicaciones relacionadas con la seguridad nuclear. Resultados preliminares.

Bernal Granados, G. A., Cardona Arboleda, O. D., Salgado Gálvez, M. A., & Villegas, C. (2015). Actualización de la microzonificación sísmica de Manizales. In Estado del arte de ingeniería sísmica en Colombia: VII Congreso Nacional de Ingeniería Sísmica 2015 (pp. 1-10).

Cardona, O. D., Ordaz, M. G., Mora, M. G., Salgado-Gálvez, M. A., Bernal, G. A., Zuloaga-Romero, D., ... & González, D. (2014). Global risk assessment: A fully probabilistic seismic and tropical cyclone wind risk assessment. International Journal of Disaster Risk Reduction, 10, 461-476.

Corigliano, M., Lai, C. G., Menon, A., & Ornthammarath, T. (2012). Seismic input at the archaeological site of Kancheepuram in Southern India. Natural hazards, 63(2), 845-866.

Danciu, L., Pagani, M., Monelli, D., Wiemer, S. (2010). GEM1 Hazard: Overview of PSHA Software. GEM Technical Report 2010-2. 65 pp. Consultado el 9 de febrero de 2012. http://www.globalquakemodel.org/system/files/doc/GEM-TechnicalReport_2010-2.pdf

Deif, A., Hamed, H., Ibrahim, H. A., Abou Elenean, K., El-Amin, E. (2011). Seismic hazard assessment in Aswan, Egypt. Journal of Geophysics and Engineering 8(4): 531 doi:10.1088/1742-2132/8/4/006

El-Eraki, M. A., & Mostafa, S. I. Multi-seismotectonic models, present-day seismicity and seismic hazard assessment for Suez Canal and its surrounding area, Egypt. Bulletin of Engineering Geology and the Environment, 1-15.

Elkady, A. M., & Chouinard, L. E. Calculating Modal Target Epsilons from multiple GMPE Models: A case study for Montreal.

FIORENTINO, G., FURGANI, L., NUTI, C., & SABETTA, F. SEISMIC HAZARD AND USE OF STRONG MOTION TIME HISTORIES FOR DAM SEISMIC ANALYSES.

Fiorentino, G., Furgani, L., & Nuti, C. ANALISI DINAMICHE NON LINEARI DI DIGHE IN CALCESTRUZZO.

Fiorini, E., Onida, M., Borzi, B., Pacor, F., Luzi, L., Meletti, C., D’Amico, V., Marzorati, S., Ameri, G. (2008). Microzonation study for an undustrial site in Southern Italy. Proceedings of the 14th World Conference on Earthquake Engineering, Beijing, China, October 12-17, 8 pp.

García-Mayordomo, J., Insua-Arévalo J. M. (2011). Seismic hazard assessment for the Itoiz dam site (Western Pyrenees, Spain). Soil Dynamics and Earthquake Engineering; 31: 1051-1063.

Jaimes, M. A., Niño, M., & Reinoso, E. (2013). Una aproximación para la obtención de mapas de desplazamiento traslacional de laderas a nivel regional inducido por sismos. Ingeniería sísmica, (89), 01-24.

Jaimes, M. A., Reinoso, E., & Esteva, L. (2015). Risk Analysis for Structures Exposed to Several Multi-Hazard Sources. Journal of Earthquake Engineering, 19(2), 297-312.

Jaimes, M. A., Niño, M., & Reinoso, E. Regional map of earthquake-induced liquefaction hazard using the lateral spreading displacement index D LL.Natural Hazards, 1-24.

Jaimes, M. A., Reinoso, E., Ordaz, M., Huerta, B., Silva, R., Mendoza, E., & Rodríguez, J. C. (2016). A new approach to probabilistic earthquake-induced tsunami risk assessment. Ocean & Coastal Management, 119, 68-75.

Kanagarathinam, L., Dodagoudar, G. R., & Boominathan, A. Evaluation of Acceleration Time-Histories for Design of Nuclear Facilities at Kalpakkam (India).

Karatzetzou, A., Pitilakis, D., Kržan, M., & Bosiljkov, V. (2015). Soil–foundation–structure interaction and vulnerability assessment of the Neoclassical School in Rhodes, Greece. Bulletin of Earthquake Engineering,13(1), 411-428.

Kolathayar, S., Sitharam, T. G., & Vipin, K. S. (2014). Probabilistic liquefaction potential evaluation for India and adjoining areas. Indian Geotechnical Journal, 44(3), 269-277.

Kolathayar, S., & Sitharam, T. G. (2012). Comprehensive Probabilistic Seismic Hazard Analysis of the Andaman–Nicobar Regions. Bulletin of the Seismological Society of America, 102(5), 2063-2076.

Kumar, G. K., & Dodagoudar, G. R. (2011). Seismic input motion for Kanchipuram, South India. Int. J. Earth Sci. Eng., 4(6), 189-192.

Kumar, G. K., & Dodagoudar, G. R. SEISMIC HAZARD ANALYSIS FOR TEMPLE COMPLEX OF KANCHIPURAM USING LOGIC TREE.

Kumar, G. K., Sreedhar, U., & Dodagoudar, G. R. PROBABILISTIC SEISMIC HAZARD ASSESSMENT FOR CHENNAI.

Marulanda, M. C., Carreño, M. L., Cardona, O. D., Ordaz, M. G., & Barbat, A. H. (2013). Probabilistic earthquake risk assessment using CAPRA: application to the city of Barcelona, Spain. Natural hazards, 69(1), 59-84.

Niño, M., Jaimes, M. A., & Reinoso, E. (2014). Seismic-event-based methodology to obtain earthquake-induced translational landslide regional hazard maps. Natural Hazards, 73(3), 1697-1713.

Niño, M., Jaimes, M. A., & Reinoso, E. (2015). A risk index due to natural hazards based on the expected annual loss. Natural Hazards, 79(1), 215-236.

Ordaz, M. G., Cardona, O. D., Salgado-Gálvez, M. A., Bernal-Granados, G. A., Singh, S. K., & Zuloaga-Romero, D. (2014). Probabilistic seismic hazard assessment at global level. International Journal of Disaster Risk Reduction,10, 419-427.

Ornthammarath, T., Douglas, J., Sigbjörnsson, R., & Lai, C. G. (2011). Assessment of ground motion variability and its effects on seismic hazard analysis: a case study for Iceland. Bulletin of Earthquake Engineering, 9(4), 931-953.

Panzera, F., Lombardo, G., Rigano, R. (2011). Use of different approaches to estimate seismic hazard: the study cases of Catania and Siracusa, Italy. Bollettino di Geofisica Teorica ed Applicata; 52(4): 687-706

Panzera, F., Lombardo, G., & Rigano, R. (2009). Seismic hazard assessment in the Catania and Siracusa urban areas (Italy) through different approaches.

Papoulia, J., Tsambas, A., Anagnostou, C., Makris, J., Pomonis, A., Gulkan, P., ... & Nicolich, R. Seismic and Tsunami Risk Assessment and Mitigation Scenarios in the Western Hellenic Arc: The SEAHELLARC Project.

Ramanna, C. K., Dodagoudar, G. R. (2012). Seismic Hazard Analysis Using the Adaptive Kernel Density Estimation Technique for Chennai City. Pure and Applied Geophysics; 169: 55-69 DOI 10.1007/s00024-011-0264-8

Ramanna, C. K., & Dodagoudar, G. R. (2012). Probabilistic seismic hazard analysis using kernel density estimation technique for Chennai, India.Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards, 6(1), 1-15.

Rehman, S., Lindholm, C., Ahmed, N., & Rafi, Z. (2014). Probabilistic seismic hazard analysis for the city of Quetta, Pakistan. Acta Geophysica,62(4), 737-761.

Rivas-Medina, A., Santoyo, M. A., Luzón, F., Benito, B., Gaspar-Escribano, J. M., García-Jerez, A. (2011). Seismic Hazard and Ground Motion Characterization at the Itoiz Dam (Northern Spain). Pure and Applied Geophysics. Publicado en línea el 16 de septiembre de 2011. DOI 10.1007/s00024-011-0405-0

Rout, M. M., Das, J., & Das, R. (2015). Probabilistic seismic hazard assessment of NW and central Himalayas and the adjoining region. Journal of Earth System Science, 124(3), 577-586.

Sabetta, F. (2014). Seismic hazard and design earthquakes for the central archaeological area of Rome. Bulletin of Earthquake Engineering, 12(3), 1307-1317.

Salgado, M. A., Bernal, G. A., Yamín, L. E., Cardona, O. D. (2010). Evaluación de la amenaza sísmica de Colombia. Actualización y uso en las nuevas normas colombianas de diseño sismo resistente NSR-10. Revista de Ingeniería; 32: 28-37.

Salgado-Gálvez, M. A., Bernal, G. A., & Cardona, O. D. (2015). Evaluación probabilista de la amenaza sísmica de Colombia con fines de actualización de la Norma Colombiana de Diseño de Puentes CCP-14. Revista Internacional de Métodos Numéricos para Cálculo y Diseño en Ingeniería.

Salgado-Gálvez, M. A., Carreño, M. L., Barbat, A. H., & Cardona, O. D. Título: Evaluación probabilista del riesgo sísmico en Lorca mediante simulaciones de escenarios Title: Probabilistic seismic risk assessment of Lorca through scenario simulations.

Salgado-Gálvez, M. A., Carreño, M. L., Barbat, A. H., & Cardona, O. D. (2015). Evaluación probabilista del riesgo sísmico en Lorca mediante simulaciones de escenarios. Revista Internacional de Métodos Numéricos para Cálculo y Diseño en Ingeniería.

Sawires, R., Peláez, J., Fat-Helbary, R. E., Ibrahim, H. A., & García-Hernández, M. T. (2015). An updated seismic source model for Egypt.Earthquake engineering-from engineering seismology to optimal seismic design of engineering structures. InTech. ISBN, 978-953.

Sawires, R., Peláez, J. A., Fat-Helbary, R. E., & Ibrahim, H. A. A review of seismic hazard assessment studies and hazard description in the building codes for Egypt. Acta Geodaetica et Geophysica, 1-30.

Sitharam, T. G., & Kolathayar, S. (2013). Seismic hazard analysis of India using areal sources. Journal of Asian Earth Sciences, 62, 647-653.

Sitharam, T. G., Kolathayar, S., & James, N. (2014). Probabilistic assessment of surface level seismic hazard in India using topographic gradient as a proxy for site condition. Geoscience Frontiers.

Slejko, D., Santulin, M., & Garcia, J. (2014). Seismic hazard estimates for the area of Pylos and surrounding region (SW Peloponnese) for seismic and tsunami risk assessment. Boll. Geof. Teor. Appl, 55, 433-468.

Sutiwanich, C., Hanpattanapanich, T., Pailoplee, S., & Charusiri, P. (2012). Probability seismic hazard maps of Southern Thailand. Songklanakarin J. Sci. Technol, 34, 453-466.

Trianni, S. C. T., Lai, C. G., & Pasqualini, E. (2014). Probabilistic seismic hazard analysis at a strategic site in the Bay of Bengal. Natural Hazards,74(3), 1683-1705.

Zhang, D. Y., Ni, S. H., Xie, W. C., & Pandey, M. (2013). Multivariate Distribution Models for Design Spectral Accelerations on Uniform Hazard Spectra. Structural Engineering and Mechanics.

CRISIS2003

Cuevas, O. Z., & Gilmore, A. T. (2008). Evaluación basada en desplazamientos de edificaciones de mampostería confinada. Revista de Ingeniería Sísmica, (79), 25-48.

Faccioli, E. (2006). Seismic hazard assessment for derivation of earthquake scenarios in Risk-UE. Bulletin of Earthquake Engineering; 4:341-364. http://dx.doi.org/10.1007/s10518-006-9021-2

Deniz, A., Armagan Korkmaz, K., Irfanoglu, A. (2010). Probabilistic Seismic Hazard Assessment for Izmir, Turkey. Pure and Applied Geophysics; 167: 1475-1484. DOI 10.1007/s00024-010-0129-6

Deniz, A. (2006). Estimation of earthquake insurance premium rates based on stochastic methods. Thesis. Master of Science. Middle East Techincal University. 1361 pp.

Deniz, A., & Yücemen, M. S. (2005). Antalya yöresi için deprem tehlikesinin stokastik yöntemler ile tahmini. Antalya Yöresinin İnşaat Mühendisliği Sorunları Kongresi, 22-25.

Duzgun. H. S. B., Yucemen, M. S., Kalaycioglu, H. S., Celik, K., Kemec, S., Ertugay, K., Deniz, A. (2011). An integrated earthquake vulnerability assessment framework for urban areas. Natural hazards; 59: 917-947.

Gilmore, A. T., & Zúñiga, O. (2011). EVALUACIÓN ESTRUCTURAL BASADA EN DESPLAZAMIENTOS PARA EDIFICACIONES DE MAMPOSTERÍA CONFINADA, EL DESARROLLO MEXICANO.

Nikulin, V. (2011). Assessment of the seismic hazard in Latvia. Version of 2007 year. Scientific Journal of Riga Technical University; 24: 110-115.

Pakistan Meteorological Department and NORSAR (2007). Seismic Hazard Analysis and Zonation for Pakistan, Azad Jammu and Kashmir. Technical Report. 156 pp. Consultado el 9 de fenrero de 2012. http://www.pakmet.com.pk/SeismicReport_PMD.pdf

Patil, N. S., Das, J., Kumar, A., Rout, M. M., & Das, R. (2014). Probabilistic seismic hazard assessment of Himachal Pradesh and adjoining regions.Journal of Earth System Science, 123(1), 49-62.

Pitilakis, K. (2011). Systemic Seismic Vulnerability and Risk Analysis for Buildings, Lifeline Networks and Infrastructures Safety Gain.

Rafi, Z., Lindholm, C., Bungum, H., Laghari, A., & Ahmed, N. (2012). Probabilistic seismic hazard of Pakistan, Azad-Jammu and Kashmir. Natural hazards, 61(3), 1317-1354.

Rafi, Z., & Haider, A. (2006). Seismic hazard analysis zonation for northern areas of Pakistan and Kashmir. Report Met Depart.

Rout, M. M., Das, J., & Das, R. (2015). Probabilistic seismic hazard assessment of NW and central Himalayas and the adjoining region. Journal of Earth System Science, 124(3), 577-586.

Sharma, M. L., Malik, S. (2006). Probabilistic Seismic Hazard Analysis and Estimation of Spectral Strong Ground Motion on Bed Rock in North East India. 4th International Conference on Earthquake Engineering, Taipei, Taiwan, October 12-13. 10 pp.

Sharma, M. L., S. Malik and Conrad C. Lindholm (2007). Seismotectonic modeling of north west Himalaya and probabilistic estimation of seismic hazard for Dehradun city, technical Report 3, Indo Norwegian programme of Institutional Cooperation on Earthquake Engineering, final report 2003-2006, Department of Earthquake Engineering, IIT Rooorkee, NORSAR, Norway and Norwegian Geotechnical Institute, Norway, 1-17.

Sharma, M. L., & Lindholm, C. (2012). Earthquake Hazard Assessment for Dehradun, Uttarakhand, India, Including a Characteristic Earthquake Recurrence Model for the Himalaya Frontal Fault (HFF). Pure and applied geophysics, 169(9), 1601-1617.

Tselentis, G. A., & Danciu, L. (2010). Probabilistic seismic hazard assessment in Greece–Part 1: Engineering ground motion parameters. Nat. Hazards Earth Syst. Sci, 10, 25-39.

Tselentis, G-A., Danciu, L., Sokos, E. (2010). Probabilistic seismic hazard assessment in Greece – Part 2: Acceleration response spectra and elastic input energy spectra. Nat. Hazard Earth Syst. Sci; 10: 41-49.

CRISIS99

Benito, B., Gaspar-Escribano, J M., Martínez-Díaz, J., García Rodriguez, M. J., Jimenez Peña, M. E., Canora, C., Álvarez-Gómez, J. A. (2008). An approach for identification of areas with higher expected damage and definition of priority levels for prevention plans in Murcia Province (SE Spain). Bolletino di Geofisica Teorica e Applicata, 49 (1). 3 - 15. ISSN 0006-6729

Benito, M. B., Navarro, M., Vidal, F., Gaspar-Escribano, J., García-Rodríguez, M.J., Martínez-Solares, J. M. (2010). A new seismic hazard assessment in the region of Andalusia (Southern Spain). Bull Earthquake Eng; 8:739-766. http://dx.doi.org/10.1007/s10518-010-9175-9

Benito, B., Navarro, M., Gaspar-Escribano, J. M., Vidal, F., Góngora, A., García Rodríguez, M. J., Martínez Solares, J. M. (2008). Seismic Hazard in Andalusia Region (Southern Spain). Proceedings of the 14th World Conference on Earthquake Engineering, Beijing, China, October 12-17, 9 pp.

Cordero, D. A., Vargas, W., Garro, J. F. (2010). Metodologías de Evaluación de la Vulnerabilidad de la Infraestructura Vial Nacional. Ingeniería; 20: 123-141

Faccioli, E. (2006). Seismic hazard assessment for derivation of earthquake scenarios in Risk-UE. Bulletin of Earthquake Engineering; 4:341-364. http://dx.doi.org/10.1007/s10518-006-9021-2

Faccioli, E., Pessina, V., Pitilakis, K., Ordaz, M. (2003). WP2: Basis of a handbook of earthquake ground motions scenarios. An advanced approach to earthquake risk scenarios with applications to different European towns, Contract: EVK4-CT-2000-00014, 93 pp.

Fiorini, E., Onida, M., Borzi, B., Pacor, F., Luzi., L., Meletti, C., D’amico, V., Mrzorati, S., Ameri, G. (2008). Microzonation Study for an industrial site in southern Italy. Proceedings of the 14th World Conference on Earthquake Engineering, Beijing, China, October 12-17, 8 pp.

González de Vallejo, L. I., García-Mayordomo, J., Insua, J.M. (2006). Probabilistic Seismic-Hazard Assessment of the Canary Islands. Bulletin of the Seismological Society of America; 96(6): 2040-2049

Irizarry, J., Goula, X., Susagna, T. (2003). Evaluación de la peligrosidad sísmica de la ciudad de Barcelona en términos de aceleración espectral, 2º Congreso Nacional de Ingeniería Sísmica, Málaga, España, pp. 389-399.

Irizarry, J., Goula, X., Susagna, T., Roca, A., Maña, F. (2004). Earthquake Risk Scenarios for Monuments in Barcelona, Spain. 13th World Conference on Earthquake Engineering, Vancouver, B. C., Canada, August 1-6, 11 pp.

Irizarry, J., Lantada, N., Pujades, L. G., Barbat, A. H., Goula, X., Susagna, T., Roca, A. (2010). Ground-shaking scenarios and urban risk evaluation of Barcelona using the Risk-UE capacity spectrum based method; Bulletin of Earthquake Engineering (9)2: 441-466.

Lantada N. (2007). Evaluación del riesgo sísmico mediante métodos avanzados y técnicas GIS. Aplicación a la ciudad de Barcelona. Tesis doctoral, Vol. 1., Universitat Politècnica de Catalunya, Barcelona, 338 pp.

Martínez Castillo, M. A. (2009). Evaluación del uso de espectros de diseño al análisis del riesgo sísmico. Aplicación a Barcelona (España). Tesina de Master. Universidad Politécnica de Cataluña, Barcelona, 235 pp.

Martínez, G. (2007). Vulnerabilidad sísmica para edificios históricos de obra de fábrica de mediana y gran luz. Tesis doctoral. Universidad Politécnica de Cataluña. 451 pp.

Meletti, C., Galadini, F., Valensise, G., Stucchi, M., Basili, R., Barba, S., Vannucci, G., Boschi, E. (2008). A seismic source zone model for the seismic hazard assessment of the Italian territory. Tectonophysics; 450: 85-108.

Menon, A., Lai, C. G., Macchi, G. (2004). Seismic Hazard Assessment of the Historical site of JAM in Afghanistan and Stability Analysis of the Minaret. Journal of Earthquake Engineering; 8: 251-294.

Perea Manera, H. (2006). Falles actives I perillositat sísmica al marge nord-occidental del solc de Valencia. Tesis doctoral. Universitat de Barcelona. Consultado el 8 de febrero de 2012. http://www.tesisenred.net/handle/10803/1919

Sadek, A. W. (2001). "Seismic Hazard Assessment in The State of Kuwait", in B.H.V. Topping, (Editor), "Proceedings of the Eighth International Conference on Civil and Structural Engineering Computing", Civil-Comp Press, Stirlingshire, UK, Paper 36. doi:10.4203/ccp.73.36

Sadek, A. W. (2004). Seismic map for the state of Kuwait. Emirates Journal for Engineering Research; 9(2): 53-58

Secanell, R., Bertil, D., Martin, C., Goula, X., Susagna, T., Tapia, M., Dominique, P., Carbon, D., Fleta, J. (2008). Probabilistic seismic hazard assessment of the Pyrenean region. Journal of seismology, 12: 323-341.

Sutiwanich, Ch., Hanpatanapanich, T., Charusiri, P., Trinetra, K. (2008). Seismic Hazard Analysis of the Khlong Tham Dam Project in Thailand. Proceedings of the International Symposia on Geoscience Resources and Environments of Asian Terranes (GREAT 2008), 4th IGCP 516, and 5thAPSEG; November 24-26, Bangkok, Tailandia.