Correction of stiffness and mass matrices utilizing simulated measured modal data |
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Authors: | Eun-Taik Lee Hee-Chang Eun |
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Institution: | 1. Department of Architectural Engineering, Chung-Ang University, Seoul, Republic of Korea;2. Department of Architectural Engineering, Kangwon National University, Hyoja 2 Dong, Chuncheon, Gangwon-Do, Republic of Korea |
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Abstract: | Measured and analytical data are unlikely to be equal due to measured noise, model inadequacies and structural damage, etc. It is necessary to update the physical parameters of analytical models for proper simulation and design studies. Starting from simulated measured modal data such as natural frequencies and their corresponding mode shapes, this study presents the equations to update the physical parameters of stiffness and mass matrices simultaneously for analytical modelling by minimizing a cost function in the satisfaction of the dynamic constraints of orthogonality requirement and eigenvalue function. The proposed equations are straightforwardly derived by Moore–Penrose inverse matrix without using any multipliers. The cost function is expressed by the sum of the quadratic forms of both the difference between analytical and updated mass, and stiffness matrices. The results are compared with the updated mass matrix to consider the orthogonality requirement only and the updated stiffness matrix to consider the eigenvalue function only, respectively. Also, they are compared with Wei’s method which updates the mass and stiffness matrices simultaneously. The validity of the proposed method is illustrated in an application to correct the mass and stiffness matrices due to section loss of some members in a simple truss structure. |
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Keywords: | Moore&ndash Penrose inverse Cost function Dynamic constraints Mass matrix update Stiffness matrix update Orthogonality |
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