论文信息 - Reduction of aerodynamic augmented states in active flutter suppression systems

Reduction of aerodynamic augmented states in active flutter suppression systems

A method is proposed by which an aeroservoelastic problem is brought to a state-space form with a minimum number of augmented aerodynamic terms. The examples treated in this work relate to NASA's Drone for Aerodynamic and Structural Testing, Aerodynamic Research Wing 1, and to the YF-17 fighter model. It is shown that, in all cases considered, the method yields a very good accuracy regarding the flutter parameters and the dynamic behavior of the systems, using only two augmented aerodynamic states. The method should prove useful in the design of lower order control laws based on optimal control theory.

E. Nissim | E. Nissim

[1] K. L. Roger,et al. Airplane Math Modeling Methods for Active Control Design , 1977 .

[2] J. R. Newson. A method for obtaining practical flutter-suppression control laws using results of optimal control theory , 1979 .

[3] Mordechay Karpel,et al. Time-domain aeroservoelastic modeling using weighted unsteady aerodynamic forces , 1990 .

[4] H. J. Dunn,et al. Application of two design methods for active flutter suppression and wind-tunnel test results , 1980 .

[5] M. Karpel,et al. Design for active and passive flutter suppression and gust alleviation. Ph.D. Thesis , 1981 .

[6] H. Dunn. An analytical technique for approximating unsteady aerodynamics in the time domain , 1980 .

[7] J. R. Newsom,et al. A method for obtaining reduced-order control laws for high-order systems using optimization techniques , 1981 .

[8] Dagfinn Gangsaas,et al. APPILICATION OF A MODIFIED LINEAR QUADRATIC GAUSSIAN DESIGN TO ACTIVE CONTROL OF A TRANSPORT AIRPLANE , 1979 .

[9] W. M. Adams,et al. Nonlinear programming extensions to rational function approximation methods for unsteady aerodynamic forces , 1988 .