An iterative method for updating finite element models with connectivity constraints.

It is well known that the analytical matrices arising from the discretization of distributed parameter systems using the finite element technique are usually symmetric and banded. How to preserve the coefficient matrices of the updated model being of the same band structure is an important yet difficult challenge for model updating in structural dynamics. In this paper, an iterative method for updating mass, damping and stiffness matrices simultaneously based on partial modal measured data is provided. By the method, the optimal updated matrices can be obtained within finite iteration steps by choosing a special kind of initial matrix triplet. The proposed approach not only preserves the physical connectivity of the original model, but also the updated model reproduces the measured modal data, which can be utilized for various finite element model updating problems. Numerical examples confirm the effectiveness of the introduced method. • An iterative updating method for damped structure systems is established. • The proposed approach preserves the physical connectivity of the original model. • The updated model can reproduce the measured modal data. • The deviation between the updated model and the original model is minimal. [ABSTRACT FROM AUTHOR]