论文信息 - New time-domain technique for flutter boundary identification

New time-domain technique for flutter boundary identification

A new methodology for flutter boundary identification in the time domain is presented. This technique is based on a single-input single-output deterministic ARMA model and an on-line parameter estimation procedure. It is capable of simultaneous identification of the aeroelastic modal parameters as well as the static offset term which represents the static deformation or state of the aeroelastic system. The capabilities of the method are illustrated by applying it to several examples, such as: damped free oscillations, a two degree of freedom NACA 64A010 airfoil in transonic flight, and a cantilevered rectangular wing in subsonic flow. Numerical implementations of the new methodology developed in this study demonstrates that it is a cost effective time-domain technique for flutter boundary identification.

Peretz P. Friedmann | Chan-Gi Pak | P. Friedmann | Chan-gi Pak

[1] Lennart Ljung,et al. Theory and Practice of Recursive Identification , 1983 .

[2] Robert M. Bennett,et al. Modern wing flutter analysis by computational fluid dynamics methods , 1988 .

[3] E. Nissim,et al. Three-Dimensional Oscillatory Piecewise Continuous-Kernel Function Method—Part I: Basic Problems , 1981 .

[4] Guru P. Guruswamy,et al. Transonic aeroelasticity of wings with tip stores , 1987 .

[5] Peretz P. Friedmann,et al. Transonic adaptive flutter suppression using approximate unsteady time domain aerodynamics , 1991 .

[6] J. E. Cooper,et al. Identification of time varying modal parameters , 1990, The Aeronautical Journal (1968).

[7] A. G. Rainey,et al. An experimental investigation of aerodynamic effects of airfoil thickness on transonic flutter characteristics , 1959 .

[8] G. Guruswamy,et al. Unsteady Transonic Aerodynamics and Aeroelastic Calculations at Low-Supersonic Freestreams , 1988 .

[9] Earl H. Dowell,et al. Studies in nonlinear aeroelasticity , 1988 .