GNGTS 2019 - Atti del 38° Convegno Nazionale

GNGTS 2019 S essione 2.2 417 References. Bommer J. J., Abrahamson N. A., Strasser F. O., Pecker A., Bard P. Y., Bungum H., Cotton F., Fäh D., Sabetta F., Scherbaum F. and StuderJ.; 2004: The Challenge of Defining Upper Bounds on Earthquake Ground Motions . Seismological Research Letters , 75, 82-95. Brune J. N.; 1999: Precarious rocks along the Mojave section of the San Andreas fault, California: constraints on ground motion from great earthquakes . Seismological Research Letters, 70 , 29-33. Chiou B. S. J. and Youngs R.R.; 2014: Update of the Chiou and Youngs NGA Model for the Average Horizontal Components of Peak Ground Motion and Response Spectra . Earthquake Spectra, 30 , 1117-1153. Convertito V., Emolo A. and Zollo A.; 2006: Seismic-Hazard Assessment for a Characteristic Earthquake Scenario: An Integrated Probabilistic-Deterministic Method . Bulletin of the Seismological Society of America, 96 , 377-391. Cornell C.A; 1968: Engineering seismic risk analysis . Bulletin of Seismological Society of America , 58 , 1583-1606. Esteva L.; 1967: Criteria for the construction of spectra for seismic design . In: 3 rd Panamerican Symposium on Structures, Caracas, Venezuela. Esteva L.; 1968: Bases para la formulación de decisiones de diseño sísmico . Ph.D. Thesis, Universidad Nacional Autonoma de México, Mexico City, México. Evangelista L., del Gaudio S., Smerzini C., d’Onofrio A., Festa G., Iervolino I., Landolfi L., Paolucci R., Santo A. and Silvestri F.; 2017: Physics-based seismic input for engineering applications: a case study in the Aterno valley, Central Italy . Bulletin of Earthquake Engineering, 15, 2645-2671. Goulet C., Abrahamson N. A., Somerville P. G. and Wooddell K. E.; 2015: The SCEC broadband platform validation exercise: Methodology for code validation in the context of seismic hazard analyses . Seismological Research Letters , 86, 17-26. Graves R., Jordan T., Callaghan S., Deelman E., Field E., Juve G., Kesselman C., Maechling P., Mehta G., Milner K., Okaya D., Small P. and Vahi K.; 2011: CyberShake: A Physics-Based Seismic Hazard Model for Southern California . Pure and Applied Geophysics, 168, 367-381. Hutchings L., Ioannidou E., Foxall W., Voulgaris N., Savy J., Kalogeras I., Scognamiglio L. and Stavrakakis G.; 2007: A physically based strong ground-motion prediction methodology; application to PSHA and the M w = 6.0 Athens earthquake . Geophysical Journal International, 168, 659 – 680. Kulkarni R. B., Youngs R. R. and Coppersmith K. J.; 1984: Assessment of confidence intervals for results of seismic hazard analysis . In: 8th World Conference on Earthquake Engineering, San Francisco, California. Mazzieri I., Stupazzini M., Guidotti R. and Smerzini C.; 2013: SPEED-SPectral Elements in Elastodynamics with Discontinuous Galerkin: a non-conforming approach for 3D multi-scale problems . International Journal for Numerical Methods in Engineering, 95, 991-1010. Ordaz M., Martinelli F., D’Amico V. and Meletti C.; 2013: CRISIS2008: A flexible tool to perform probabilistic seismic hazard assessment . Seismological Research Letters, 84, 495–504. Özcebe S., Silva V., and Crowley H.; 2014: Seismic hazard and risk assessment of Turkey . In: 2 nd European Conference on Earthquake Engineering and Seismology, Istanbul, Turkey. Paolucci R., Gatti F., Infantino M., Smerzini C., Özcebe A. G. and Stupazzini M; 2018: Broadband Ground Motions from 3D Physics-Based Numerical Simulations Using Artificial Neural Networks . Bulletin of Seismological Society of America, 108, 1272-1286. Paolucci R., Mazzieri I. and Smerzini C.; 2015: Anatomy of strong ground motion: near-source records and three- dimensional physics-based numerical simulations of the Mw 6.0 2012 May 29 Po Plain earthquake, Italy . Geophyisical Journal International , 203, 2001-2020. Pilz M., Parolai S., Stupazzini M., Paolucci R. and Zschau J.; 2011: Modelling basin effects on earthquake ground motion in the Santiago de Chile basin by a spectral element code . Geophysical Journal International, 187, 929-945. Razafindrakoto H. N. T., Bradley B. A., and Graves R. W.; 2018: Broadband Ground-Motion Simulation of the 2011 Mw 6.2 Christchurch, New Zealand, Earthquake . Bulletin of the Seismological Society of America, 108, 2130-2147. Stupazzini M., Allmann A., Käser M., Mazzieri I., Özcebe A. G., Paolucci R. and Smerzini C.; 2015. PSHAe (Probabilistic Seismic Hazard Analysis enhanced): the case of Istanbul . In: 10 th Pacific Conference on Earthquake Engineering, Sydney, Australia. Taborda R., Azizzadeh-Roodpish S., Khoshnevis N. and Cheng K.; 2016: Evaluation of the southern California seismic velocity models through simulations of recorded events . Geophysical Journal International, 205, 1342-1364. Taborda R. and Bielak J.; 2013: Groundmotion simulation and validation of the 2008 Chino Hills, California, earthquake . Bulletin of the Seismological Society of America , 103, 131-156. Tarbali K., Bradley B., Huang J., Lee R., Lagrava D., Bae S., Polak V., Motha J. and Zhu M.; 2019: Cybershake NZ v18.5: New Zealand simulation-based probabilistic seismic hazard analysis . In: 7 th Conference on Earthquake Geotechnical Engineering, Rome, Italy. Villani M., Faccioli E., Ordaz M. and Stupazzini M.; 2014: High-Resolution Seismic Hazard Analysis in a Complex Geological Configuration: The Case of the Sulmona Basin in Central Italy . Earthquake Spectra , 30, 1801 – 1824.