We consider two finite element model updating problems, which incorporate the measured modal data into the analytical finite element model, producing an adjusted model on the (mass) damping and stiffness, that closely matches the experimental modal data. We develop two efficient numerical algorithms for solving these problems. The new algorithms are direct methods that require O(nk(2)) and O(nk(2) + k(6)) flops, respectively, and employ sparse matrix techniques when the analytic model is sparse. Here n is the dimension of the coefficient matrices defining the analytical model, and k is the number of measured eigenpairs.Engineering, AerospaceSCI(E)EI34ARTICLE61310-13164
Finite element (FE) models are useful for many applications in engineering community such as structu...
Analytical stiffness matrices of different problems are modified in the light of incomplete modal da...
In this paper a two step Computational Model Updating method is investigated. In the first step, phy...
Model updating is becoming a common method to improve the correlation between finite element models ...
A method for updating mass and stiffness matrices without spillover is presented, which requires th...
The objective of model updating is to improve the accuracy of a dynamic model based on the correlati...
A novel frequency and modal domain formulation of the model updating problem is presented. Deviation...
A new method of updating mass and stiffness matrices simultaneously with no spillover Jun Yang1, Hua...
Model updating is an inverse eigenvalue problem which concerns the modification of an existing but i...
This paper presents a new finite element model updating method to improve the correlation between th...
This paper presents a new finite element model updating method to improve the correlation between th...
New approaches are developed that use measured data to adjust the analytical mass and stiffness matr...
An effective and reliable approach to updating finite element (FE) models of real structures is to u...
A new direct method for the finite element (FE) matrix updating problem in a hysteretic (or material...
AbstractIn this paper we develop an efficient numerical method for the finite element model updating...
Finite element (FE) models are useful for many applications in engineering community such as structu...
Analytical stiffness matrices of different problems are modified in the light of incomplete modal da...
In this paper a two step Computational Model Updating method is investigated. In the first step, phy...
Model updating is becoming a common method to improve the correlation between finite element models ...
A method for updating mass and stiffness matrices without spillover is presented, which requires th...
The objective of model updating is to improve the accuracy of a dynamic model based on the correlati...
A novel frequency and modal domain formulation of the model updating problem is presented. Deviation...
A new method of updating mass and stiffness matrices simultaneously with no spillover Jun Yang1, Hua...
Model updating is an inverse eigenvalue problem which concerns the modification of an existing but i...
This paper presents a new finite element model updating method to improve the correlation between th...
This paper presents a new finite element model updating method to improve the correlation between th...
New approaches are developed that use measured data to adjust the analytical mass and stiffness matr...
An effective and reliable approach to updating finite element (FE) models of real structures is to u...
A new direct method for the finite element (FE) matrix updating problem in a hysteretic (or material...
AbstractIn this paper we develop an efficient numerical method for the finite element model updating...
Finite element (FE) models are useful for many applications in engineering community such as structu...
Analytical stiffness matrices of different problems are modified in the light of incomplete modal da...
In this paper a two step Computational Model Updating method is investigated. In the first step, phy...