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An optimized rational fraction polynomial approach for modal parameters estimation from FRF measurements
Omar Omar/Nejah Tounsi/Eu-Gene Ng/M. A. Elbestawi
The Journal of Mechanical Science and Technology, vol. 24, no. 3, pp.831-842, 2010
Abstract : This paper presents an Optimized Rational Fraction Polynomial (ORFP) approach for modal parameters estimation from the measurements
of the Frequency Response Function (FRF). Although this approach is based on the Rational Fraction Polynomial (RFP) technique
described in [1], it suggests the use of a constrained optimization scheme rather than the Forsythe method to overcome the shortcomings
of the Forsythe method. The latter are the estimation of modal parameters that do not necessarily describe a stable system and
the estimation of fictitious natural frequencies. The formulation of the constrained optimization problem is presented and discussed. The
assessment of the performance of the ORFP approach showed that it is better than the RFP approach in terms of its ability to identify
modal parameters that ensure a stable system and its flexibility in selecting and setting the natural frequencies of the system. Several
illustrative examples are given to demonstrate the robustness of the ORFP approach.
Keyword : Constrained optimization; Modal parameters extraction; Rational fraction polynomial; Stable system |
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