Application of Bifurcation Theory to the High-Angle-of-Attack Dynamics of the F-14

Creators: Jahnke, C. C.; Culick, F. E. C.

Abstract

Bifurcation theory has been used to study Ihe nonlinear dynamics of the F-14. An 8 degree-of-freedom model that does not include the control system present in operational F-14's has been analyzed. The aerodynamic model, supplied by NASA, includes nonlinearlties as functions of the angles of attack and sideslip, the rotation rate about the velocity vector, and the elevator deflection. A continuation method has been used to calculate the steady states of the F -14 as continuous functions of the elevator deflection. Bifurcations of these steady states have been used to predict the onset of wing rock, spiral divergence, and jump phenomena that cause the aircraft to enter a spin. A simple feedback control system was designed to eliminate the wing rock and spiral divergence instabilities. The predictions were verified with numerical simulations.

Additional Information

© 1992 by the American Institute of Aeronautics and Astronautics, Inc. Received Feb. 12, 1992; revision received Oct. 6, 1992; accepted for publication Oct. 7, 1992. This work was partly supported by CALTECH funds and partly supported by Grant NCCZ-429 from NASA Ames Dryden Flight Research Center. The F-14 aerodynamic model was supplied by Joe Gera, Acting Assistant Branch Chief, Vehicle Technical Branch, NASA Ames Dryden Flight Research Center.

Attached Files

Published - 357_Culick_FEC_1994.pdf

Files

357_Culick_FEC_1994.pdf

Files (607.7 kB)

Name	Size	Download all
357_Culick_FEC_1994.pdf md5:130623d7fd980313b0234d59a56cc20d	607.7 kB	Preview Download

Additional details

	All versions	This version
Views	0	0
Downloads	0	0
Data volume	0 Bytes	0 Bytes