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Experimental identification of nonlinear model parameter by frequency domain method
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 Title & Authors
Experimental identification of nonlinear model parameter by frequency domain method
Kim, Won-Jin;
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 Abstract
In this work, a frequency domain method is tested numerically and experimentally to improve nonlinear model parameters using the frequency response function at the nonlinear element connected point of structure. This method extends the force-state mapping technique, which fits the nonlinear element forces with time domain response data, into frequency domain manipulations. The force-state mapping method in the time domain has limitations when applying to complex real structures because it needd a time domain lumped parameter model. On the other hand, the frequency domain method is relatively easily applicable to a complex real structure having nonlinear elements since it uses the frequency response function of each substurcture. Since this mehtod is performed in frequency domain, the number of equations required to identify the unknown parameters can be easily increased as many as it needed, just by not only varying excitation amplitude bot also selecting excitation frequency domain method has some advantages over the classical force-state mapping technique in the number of data points needed in curve fit and the sensitivity to response noise.
 Keywords
Nonlinear Element;Model Parameter Identification;Frequency Domain Method;Coulomb Friction Coefficient;
 Language
Korean
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