Mode-acceleration approach to seismic response of multiply-supported secondary systems

A formulation has been proposed for the transfer function of a secondary system response while the primary system is supported on a compliant soil and the excitation comprises of translational ground motion at its base. For this purpose, the earlier formulation of the authors for the fixed-base case

A new formulation of the transfer function has been proposed for the seismic analysis of linear, multiply supported secondary systems. The transfer function for a given response quantity has been formulated by directly using the ÿxedbase modes of the primary and secondary systems. This approach is e

The ground motions produced by an earthquake at the multiple support points of large structures can differ considerably. In this study, the quasi-static, the dynamic and the total structural responses of a multiply supported rigid plate to spatially varying multiple ground motion inputs are analysed

An approach to parameter identi"cation for the single-degree-of-freedom (s.d.o.f.) system is presented. It "ts into the group of parametric system identi"cation methods that use a structured mathematical model. It uses the free acceleration response of the system in order to estimate the parameters