Global Piecewise Fitting Method for Modal Parameter Identification by Orthogonal Polynomials Based on Dynamic Systems

Feng Li Wang; Shu Lin Duan; Hong Tao Gao

doi:10.4028/www.scientific.net/AMR.549.993

Paper Titles

Blue Phosphorescent Organic Light-Emitting Diodes Based on SFX2PO Host
p.975

An Evaluation Index of a Hydrocyclone for Softwood Pulp Fiber Fractionation
p.979

Effect of Microwave Treatment on the Extraction Speed and Quality of Camellia Seed Oil
p.984

NURBS Fitting Optimization Based on Ant Colony Algorithm
p.988

Global Piecewise Fitting Method for Modal Parameter Identification by Orthogonal Polynomials Based on Dynamic Systems
p.993

Flotation to Recover Copper Minerals from a Low-Grade Copper-Bearing Iron Ore
p.998

Study and Application on Cutting Technology of Underground Drifting Blasting
p.1002

Detection of Weld Seam Position Based on Infrared Image during High Power Fiber Laser Welding
p.1007

Data Process for Reverse Engineering Technology
p.1012

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 549Global Piecewise Fitting Method for Modal...

Global Piecewise Fitting Method for Modal Parameter Identification by Orthogonal Polynomials Based on Dynamic Systems

Abstract:

Global estimation of modal parameters for dynamic Systems using fraction orthogonal polynomials possesses higher precision than the general rational fraction orthogonal polynomials algorithm. The object of this paper is to introduce a new technique to derive the global piecewise fitting method for modal parameter identification of dynamic Systems. Based on the global fraction orthogonal polynomials algorithm, a global piecewise fitting method for eliminating affections of modes outside of fitting bands is proposed. Both lower and higher modes outside of the fitting band are analyzed and processed. The frequency response data are revised by means of modes in two frequency bands close to the fitting band, and a curve fitting model is derived. The proposed method is compared with that of the traditional estimation without regard to the affections of modes outside of the fitting band. For this comparative study, simulated data are used. Simulation research indicates that the processed approach is effective.