An efficient method for seismic analysis of structures
Abstract
Purpose
The purpose of this paper is to present an efficient method for dynamic analysis of structures utilizing a modal analysis with the main purpose of decreasing the computational complexity of the problem. In traditional methods, the solution of initial-value problems (IVPs) using numerical methods like finite difference method leads to step by step and time-consuming recursive solutions.
Design/methodology/approach
The present method is based on converting the IVP into boundary-value problems (BVPs) and utilizing the features of the latter problems in efficient solution of the former ones. Finite difference formulation of BVPs leads to matrices with repetitive tri-diagonal and block tri-diagonal patterns wherein the eigensolution and matrix inversion are obtained using graph products rules. To get advantage of these efficient solutions for IVPs like the dynamic analysis of single DOF systems, IVPs are converted to boundary-value ones using mathematical manipulations. The obtained formulation is then generalized to the multi DOF systems by utilizing modal analysis.
Findings
Applying the method to the modal analysis leads to a simple and efficient formulation. The laborious matrix inversion and eigensolution operations, of computational complexities of O(n2.373) and O(n3), respectively, are converted to a closed-form formulation with summation operations.
Research limitations/implications
No limitation.
Practical implications
Swift analysis has become possible.
Originality/value
Suitability of solving IVPs and modal analysis using conversion and graph product rules is presented and applied to efficient seismic optimal analysis and preliminary design.
Keywords
Acknowledgements
The first author is grateful to the Iran National Science Foundation for the support.
Citation
Kaveh, A., Rahami, H. and Shojaei, I. (2015), "An efficient method for seismic analysis of structures", Engineering Computations, Vol. 32 No. 6, pp. 1708-1721. https://doi.org/10.1108/EC-07-2014-0159
Publisher
:Emerald Group Publishing Limited
Copyright © 2015, Emerald Group Publishing Limited