Parameter Estimation Incorporating Modal Data and Boundary Conditions
Masoud Sanayei
Associate Professor, Tufts UniversityJennifer A. S. McClain
Structural Engineer, Weidlinger Assoc.Sara Wadia-Fascetti
Assistant Professor, Northeastern UniversityErin M. Santini
Doctoral Student, Tufts University
ABSTRACTA new error function is introduced to use natural frequencies and associated mode shapes measured at a selected subset of degrees of freedom (DOF) for stiffness and mass parameter estimation at the element level. The incomplete mode shapes are used to form the "modal stiffness-based error function" by condensing out the mode shapes at the unmeasured degrees of freedom (DOF). Structural modeling errors can not be completely avoided in any analytical procedure that relies on finite element models (FEM); however, some errors may be controlled. Two elements are used for the first time in parameter estimation to more accurately capture the structural behavior at complex interfaces, thus reducing error. The soil-substructure super-element is introduced into the parameter estimation and is intended to capture stiffness and mass properties of the foundation. The partially restrained frame element enables connections to be modeled as partially restrained in addition to the more traditional fixed or pinned assumptions. To examine the capability of the proposed parameter estimation algorithm, these two new elements are incorporated in a parameter estimation example using simulated modal data. In this example, stiffness and mass parameter estimates successfully converged to the “true” parameter values with no bias within the desired tolerance level. Such parameter estimates can be used for model updating and to establish a baseline for structural condition assessment.
Contact Information:Prof. S. Wadia-Fascetti (swf@neu.edu)
Dept. of Civil & Env. Engineering
Northeastern University
Boston, MA 02115
Reference:Sanayei, M., McClain†, J., and Wadia-Fascetti, S., Santini†, E. (1999) “Parameter Estimation Incorporating Modal Data and Boundary Conditions.“ ASCE Journal of Structural Engineering. 125 (9), September 1999.Back to: publications page
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