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NONLINEAR EFFECTS IN GROUND MOTION SIMULATIONS: MODELING VARIABILITY, PARAMETRIC UNCERTAINTY AND IMPLICATIONS IN STRUCTURAL PERFORMANCE PREDICTIONS (2010)
While site effects are accounted for in most modern U.S. seismic design codes for building structures, there exist no standardized procedures for the computationally efficient integration of nonlinear ground response analyses in broadband ground motion simulations. In turn,the lack of a unified methodology affects the prediction accuracy of site-specific ground motion intensity measures, the evaluation of site amplification factors when broadband simulations are used for the development of hybrid attenuation relations, and the estimation of inelastic structural performance when strong motion records are used as input
in aseismic structural design procedures.
In this study, a set of criteria is established, which quantifies how strong nonlinear effects are anticipated to manifest at a site by investigating the empirical relation between nonlinear soil response, soil properties, and ground motion characteristics. More specifically, the modeling variability and parametric uncertainty of nonlinear soil response predictions are studied, along with the uncertainty propagation of site response analyses to the estimation of inelastic structural performance. Due to the scarcity of design level ground motion recording, the geotechnical information at 24 downhole arrays is used and the profiles are subjected to broadband ground motion synthetics.
Georgia Institute of Technology August 2010
Georgia Institute of Technology, Atlanta, GA USA
USA