Affiliation of Author(s):航空学院
Journal:SHOCK AND VIBRATION
Key Words:POLE-PLACEMENT DWELL TIME SYSTEMS SUPPRESSION STABILIZATION STABILITY REGIONS DESIGN
Abstract:Active flutter suppression and subspace identification for a flexible wing model using micro fiber composite actuator were experimentally studied in a low speed wind tunnel. NACA0006 thin airfoil model was used for the experimental object to verify the performance of identification algorithm and designed controller. The equation of the fluid, vibration, and piezoelectric coupled motion was theoretically analyzed and experimentally identified under the open-loop and closed-loop condition by subspace method for controller design. A robust pole placement algorithm in terms of linear matrix inequality that accommodates the model uncertainty caused by identification deviation and flow speed variation was utilized to stabilize the divergent aeroelastic system. For further enlarging the flutter envelope, additional controllers were designed subject to the models beyond the flutter speed. Wind speed was measured online as the decision parameter of switching between the controllers. To ensure the stability of arbitrary switching, Common Lyapunov function method was applied to design the robust pole placement controllers for different models to ensure that the closed-loop system shared a common Lyapunov function. Wind tunnel result showed that the designed controllers could stabilize the time varying aeroelastic system over a wide range under arbitrary switching.
ISSN No.:1070-9622
Translation or Not:no
Date of Publication:2018-01-01
Co-author:Wang, Yizhe,Li, Wei
Correspondence Author:Wang, Yizhe,xzw
Date of Publication:2018-01-01