6533b827fe1ef96bd128716b
RESEARCH PRODUCT
WING FLUTTER SUPPRESSION ENHANCEMENT USING A WELL-SUITED ACTIVE CONTROL MODEL
F. MarinoRosario Marrettasubject
WingComputer scienceAeroelasticity Flutter (aerodynamics) cycle oscillationMechanical EngineeringAerospace EngineeringEquations of motionAerodynamicsAeroelasticityPhysics::Fluid DynamicsControl theoryRobustness (computer science)Settore ING-IND/06 - FluidodinamicaFlutterActuatordescription
State-space theory is employed here to model a new active wing flutter suppression control. In this paper, the design of a flutter suppression control law, for the NASA Benchmark Active Control Technology wing, is proposed through a single input-single output controller and unsteady aerodynamics is modelled using the Theodorsen's theory. Wing dynamic model is obtained by combining the aeroelastic equations of motion with the actuator model presented. Open-loop dynamic behaviour is examined for a single feedback variable that combines pitch and plunge accelerations. Here, a new formulation of control law, based on classical control techniques and featuring two feedback closed-loops, is successfully employed to reach superior stability robustness with respect to other control laws designed with classical flutter suppression schemes having only one feedback closed-loop. The process allows the stability of the aeroelastic system for flight speeds that exceed the open-loop flutter velocity.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2007-03-01 |