PSI - Issue 78

Giovanni Smiroldo et al. / Procedia Structural Integrity 78 (2026) 1585–1592

1592

6. References Barnaba, M., 2021. Physics-Based Seismic Input for Engineering Design and Risk Assessment. PhD Dissertation, University of Trieste. Bindi, D., Pacor, F., Luzi, L., Puglia, R., Massa, M., Ameri, G., Paolucci, R., 2011. Ground motion prediction equations derived from the Italian strong motion database. Bulletin of Earthquake Engineering 9(6), 1899-1920. Brandmayr, E., Raykova, R. B., Zuri, M., Romanelli, F., Doglioni, C., Panza, G.F., 2010. The lithosphere in Italy: structure and seismicity. Journal of the Virtual Explorer, 36. Chieffo, N., Fasan, M., Romanelli, F., Formisano, A., Mochi, G., 2021. Physics-Based Ground Motion Simulations for the Prediction of the Seismic Vulnerability of Masonry Building Compounds in Mirandola (Italy). Buildings 11(12), 667. DISS Working Group, 2021. Database of Individual Seismogenic Sources (DISS), Version 3.3.0: A compilation of potential sources for earthquakes larger than M 5.5 in Italy and surrounding areas. Istituto Nazionale di Geofisica e Vulcanologia (INGV). Fasan, M., 2017. Advanced seismological and engineering analysis for structural seismic design. PhD Dissertation, University of Trieste. Fasan, M., Magrin, A., Amadio, C., Romanelli, F., Vaccari, F., Panza, G., 2016. A seismological and engineering perspective on the 2016 Central Italy earthquakes. International Journal of Earthquake and Impact Engineering 1(4), 395. Gusev, A.A., 2011. Broadband Kinematic Stochastic Simulation of an Earthquake Source: a Refined Procedure for Application in Seismic Hazard Studies. Pure and Applied Geophysics 168(1 – 2), 155-200. Hassan, H.M., Fasan, M., Sayed, M.A., Romanelli, F., ElGabry, M.N., Vaccari, F., Hamed, A., 2020. Site-specific ground motion modeling for a historical Cairo site as a step towards computation of seismic input at cultural heritage sites. Engineering Geology 268, 105524 Luzi, L., Lanzano, G., Felicetta, C., D’Amico, M. C., Russo, E., Pacor, F., 2020. Engineering Strong Motion Database (ESM) (Version 2.0). Istituto Nazionale Di Geofisica e Vulcanologia (INGV). https://doi.org/https://doi.org/10.13127/ESM.2 Magrin, A., 2012. Multi-scale seismic hazard scenarios. PhD Dissertation, University of Trieste. Magrin, A., Gusev, A. A., Romanelli, F., Vaccari, F., Panza, G.F., 2016. Broadband NDSHA computations and earthquake ground motion observations for the Italian territory. International Journal of Earthquake and Impact Engineering 1(1/2), 131. Panza, G.F., La Mura, C., Peresan, A., Romanelli, F., Vaccari, F., 2012. Seismic Hazard Scenarios as Preventive Tools for a Disaster Resilient Society, 93-165. Pavlov, V.M., 2009. Matrix impedance in the problem of the calculation of synthetic seismograms for a layered-homogeneous isotropic elastic medium. Izvestiya, Physics of the Solid Earth 45(10), 850-860. Petrone, F., Abrahamson, N., McCallen, D., Miah, M., 2021. Validation of (not-historical) large-event near-fault ground-motion simulations for use in civil engineering applications. Earthquake Engineering and Structural Dynamics 50(1), 116-134. Smerzini, C., Amendola, C., Paolucci, R., Bazrafshan, A., 2024. Engineering validation of BB-SPEEDset, a data set of near-source physics-based simulated accelerograms. Earthquake Spectra 40(1), 420-445 Smiroldo, G., 2025. Validation of physics-based ground-motion simulations for structural engineering purposes. PhD Dissertation, University of Trieste. Smiroldo, G., Fasan, M., Romanelli, F., Bedon, C., 2025. Preliminary Energy-Based Validation of a Physics-Based Simulated Ground-Motion Database, 67-80. Vaccari, F., 2016. A Web Application Prototype for the Multiscale Modelling of Seismic Input. In: Earthquakes and Their Impact on Society, pp. 563-584. Springer International Publishing. https://doi.org/10.1007/978-3-319-21753-6_23 Wells, D.L., 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. Yamazaki, F., Murao, O., 2000. Vulnerability Functions for Japanese Buildings based on Damage Data from the 1995 Kobe Earthquake. Implications of Recent Earthquakes on Seismic Risk, 91-102.