Title :
Lateral acceleration control design of a non-linear homing missile using multi-objective evolution strategies
Author :
Sreenuch, T. ; Tsourdos, A. ; Hughes, E.J. ; White, B.A.
Author_Institution :
Dept. of Aerosp., Power & Sensors, Cranfield Univ., Bedford, UK
fDate :
June 30 2004-July 2 2004
Abstract :
This paper presents the lateral acceleration control design of non-linear missile model using the multiple single objective Pareto sampling method. The interpolated controller design for the uncertain plants is carried out by minimizing gain and phase margins, tracking and actuator rate limit frequency domain based performance objectives. An ad-hoc approach is taken to the controller interpolation. The controller´s trade-offs are analyzed using the obtained Pareto optimal solutions (corresponding to a given set of weight vectors). The non-linear simulation results show that the selected interpolated controller is a robust tracking controller for all perturbation vertices.
Keywords :
Pareto analysis; acceleration control; control system analysis; control system synthesis; evolutionary computation; frequency-domain analysis; minimisation; missile control; nonlinear control systems; perturbation techniques; position control; robust control; uncertain systems; Pareto sampling method; ad hoc method; control system analysis; frequency domain method; gain minimization; interpolated controller design; lateral acceleration control design; multiobjective evolutionary optimization; nonlinear homing missile control; nonlinear simulation; perturbation vertices; phase margin minimization; robust tracking controller; uncertain plants; weight vectors;
Conference_Titel :
American Control Conference, 2004. Proceedings of the 2004
Conference_Location :
Boston, MA, USA
Print_ISBN :
0-7803-8335-4
