Genetic algorithms-based method for disturbance attenuation in flight control systems

Authors

X. H. Liao, North Carolina Agricultural and Technical State University
Zhao Sun, North Carolina Agricultural and Technical State University
B. Li, North Carolina Agricultural and Technical State University
Y. D. Song, North Carolina Agricultural and Technical State University

Document Type

Conference Proceeding

Publication Date

10-17-2006

Abstract

Due to fast varying flight conditions, the dynamics of space vehicle such as RLV (Reusable Launch Vehicle) are usually coupled with unpredictable disturbances, which, if not properly attenuated, could significantly deteriorate the vehicle flight performance. This paper explores a new approach to reducing the affect of external disturbances on RLV by using Genetic Algorithms (GA). By carefully selecting a fitness function related to Euler angles tracking errors, we use GA to search for an "optimal" compensating unit to "fight" against the external disturbances for better tracking performance. Unlike most existing robust control schemes, the proposed method does not involve analytically estimating the bounds of the nonlinearities and disturbances, making it more feasible for design and implementation. © 2006 IEEE.

Publication Source (Journal or Book title)

Proceedings of the Annual Southeastern Symposium on System Theory

First Page

519

Last Page

523

Recommended Citation

Liao, X., Sun, Z., Li, B., & Song, Y. (2006). Genetic algorithms-based method for disturbance attenuation in flight control systems. Proceedings of the Annual Southeastern Symposium on System Theory, 2006, 519-523. Retrieved from https://repository.lsu.edu/ag_exst_pubs/856