A control law is developed to suppress symmetric flutter for a mathematical model of an aeroelastic research vehicle. An implementable control law is attained by including modified LQC (Linear Quadratic Gaussian) design techniques, controller order reduction, and gain scheduling. An alternate (complementary) design approach is illustrated for one flight condition wherein nongradient-based constrained optimization techniques are applied to maximize controller robustness
The results of optimal control theory are used to synthesize a feedback filter. The feedback filter ...
Active control of aeroelastic response is a complex in which the designer usually tries to satisfy m...
The synthesis and experimental validation of a control law for13; an actiqe flutter suppression syst...
The design of the flutter suppression system for a remotely-piloted research vehicle is described. T...
Three control law design techniques for flutter suppression are presented. Each technique uses multi...
The Active Flexible Wing Project is a collaborative effort between the NASA Langley Research Center ...
Design of a control law for simultaneously suppressing the symmetric and antisymmetric flutter modes...
A method of synthesizing reduced-order optimal feedback control laws for a high-order system is deve...
The benchmark active controls technology and wind tunnel test program at NASA Langley Research Cente...
Three flutter suppression control law design techniques are presented. Each uses multiple control su...
The benchmark active controls technology and wind tunnel test program at NASA Langley Research Cente...
The benchmark active controls technology and wind tunnel test program at NASA Langley Research Cente...
The synthesis, implementation, and wind tunnel test of two flutter suppression control laws for an a...
Eigenspace (ES) techniques were used to design an active flutter suppression system for the DAST ARW...
The benchmark active controls technology and wind tunnel test program at NASA Langley Research Cente...
The results of optimal control theory are used to synthesize a feedback filter. The feedback filter ...
Active control of aeroelastic response is a complex in which the designer usually tries to satisfy m...
The synthesis and experimental validation of a control law for13; an actiqe flutter suppression syst...
The design of the flutter suppression system for a remotely-piloted research vehicle is described. T...
Three control law design techniques for flutter suppression are presented. Each technique uses multi...
The Active Flexible Wing Project is a collaborative effort between the NASA Langley Research Center ...
Design of a control law for simultaneously suppressing the symmetric and antisymmetric flutter modes...
A method of synthesizing reduced-order optimal feedback control laws for a high-order system is deve...
The benchmark active controls technology and wind tunnel test program at NASA Langley Research Cente...
Three flutter suppression control law design techniques are presented. Each uses multiple control su...
The benchmark active controls technology and wind tunnel test program at NASA Langley Research Cente...
The benchmark active controls technology and wind tunnel test program at NASA Langley Research Cente...
The synthesis, implementation, and wind tunnel test of two flutter suppression control laws for an a...
Eigenspace (ES) techniques were used to design an active flutter suppression system for the DAST ARW...
The benchmark active controls technology and wind tunnel test program at NASA Langley Research Cente...
The results of optimal control theory are used to synthesize a feedback filter. The feedback filter ...
Active control of aeroelastic response is a complex in which the designer usually tries to satisfy m...
The synthesis and experimental validation of a control law for13; an actiqe flutter suppression syst...