Design and evaluation of robust nonlinear missile autopilots from a performance perspective

Author

Hull, Richard A. ; Schumacher, Darren ; Qu, Zhihua

Author_Institution

Univ. of Central Florida, Orlando, FL, USA

Volume

1

fYear

1995

fDate

21-23 Jun 1995

Firstpage

189

Abstract

In this paper a general uncertainty model for a nonlinear missile system is developed, which assumes uncertainties in all aerodynamic force and moment generating terms in the equations of motion. These uncertainties are then bounded and used as a deterministic model in the design of two robust nonlinear missile autopilots. The first approach is an input/output linearized robust controller design, and the second is a recursive robust nonlinear controller design. The general uncertainty model is then used to define limited bandwidth stochastic perturbations for the evaluation of these autopilots. The resulting performance evaluations and comparisons are obtained through computer simulation and by Monte Carlo analysis

Keywords

control system synthesis; linearisation techniques; missile guidance; nonlinear control systems; performance evaluation; perturbation techniques; robust control; uncertain systems; Monte Carlo analysis; deterministic model; equations of motion; input/output linearized robust controller; nonlinear missile autopilots; recursive robust nonlinear controller; stochastic perturbations; uncertainty model; Aerodynamics; Bandwidth; Computer simulation; Missiles; Monte Carlo methods; Nonlinear equations; Robust control; Robustness; Stochastic processes; Uncertainty;

fLanguage

English

Publisher

ieee

Conference_Titel

American Control Conference, Proceedings of the 1995

Conference_Location

Seattle, WA

Print_ISBN

0-7803-2445-5

Type

conf

DOI

10.1109/ACC.1995.529235

Filename

529235