A digital flight control system based on microprocessor technology has been designed, developed, and flight tested using the Avionics Research Aircraft (ARA). The control system utilizes the existing microprocessor system available in the aircraft's fly-by-wire control system. The command and stability augmentation control law was developed using modern control theory and is incorporated into existing flight control computer programs. Development of the model and control law, the gain scheduling procedure, and the flight test results are presented. The objctive of the study was to provide lateral-directional stability during high-angle-of-attack flight and into the stall regime. Flight test results show that it is indeed possile to design a control system which will eliminate lateral-directional instabilities and do so at a level higher than the pilot was able to attain.
Lateral-Directional Controller for High-Angle-of-Attack Flight
1983
199 pages
Report
Keine Angabe
Englisch
Avionics , Flight control systems , Digital systems , Microprocessors , Computer applications , Flight testing , Computer programs , Stabilization , Angle of attack , Operational effectiveness , Data acquisition , Computer aided design , Input output processing , Variables , Tables(Data) , Safety , Stalling , Theses , Lateral directional stability , Nonlinear equations of motion