A multidisciplinary research e.ort that combines aerodynamic modeling and gain-scheduled control design for aircraft flight at post-stall conditions is described. The aerodynamic modeling uses a decambering approach for rapid prediction of post-stall aerodynamic characteristics of multiple-wing con.gurations using known section data. The approach is successful in bringing to light multiple solutions at post-stall angles of attack right during the iteration process. The predictions agree fairly well with experimental results from wind tunnel tests. The control research was focused on actuator saturation and .ight transition between low and high angles of attack regions for near- and post-stall aircraft using advanced LPV control techniques. The new control approaches maintain adequate control capability to handle high angle of attack aircraft control with stability and performance guarantee.
Post-Stall Aerodynamic Modeling and Gain-Scheduled Control Design
AIAA Guidance, Navigation, and Control Conference and Exhibit ; 2005 ; San Francisco, CA, United States
01.01.2005
Preprint
Keine Angabe
Englisch
Design of robust gain scheduled control system
IEEE | 2015
|Opinion: Aerodynamic stall can prompt 'Brain stall'
Online Contents | 2014
|Tailored Dynamic Gain-Scheduled Control
AIAA | 2006
|