Nonlinear System Identification for Aeroelastic Systems with Application to Experimental Data
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Representation and identification of a nonlinear aeroelastic pitch-plunge system as a model of the Nonlinear AutoRegressive, Moving Average eXogenous (NARMAX) class is considered. A nonlinear difference equation describing this aircraft model is derived theoretically and shown to be of the NARMAX form. Identification methods for NARMAX models are applied to aeroelastic dynamics and its properties demonstrated via continuous-time simulations of experimental conditions. Simulation results show that (1) the outputs of the NARMAX model closely match those generated using continuous-time methods, and (2) NARMAX identification methods applied to aeroelastic dynamics provide accurate discrete-time parameter estimates. Application of NARMAX identification to experimental pitch-plunge dynamics data gives a high percent fit for cross-validated data. Kukreja, Sunil L. Armstrong Flight Research Center NASA/TM-2008-214641, H-2887 AEROELASTICITY; NONLINEAR SYSTEMS; SYSTEM IDENTIFICATION; PARAMETER IDENTIFICATION; AUTOREGRESSIVE MOVING AVERAGE; DIFFERENCE EQUATIONS; SIMULATION; NONLINEARITY
Format:Paperback
Language:English
ISBN:B08F6TF6W2
ISBN13:9798672343082
Release Date:January 1
Publisher:Independently Published
Length:32 Pages
Weight:0.22 lbs.
Dimensions:0.1" x 8.5" x 11.0"
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