Robust stabilization of an airlaunch system after launching phase

Author

Van Cuong Nguyen ; Marino, Riccardo ; Damm, G.

Author_Institution

IBISC, Univ. d´Evry Val d´Essonne, Evry, France

fYear

2012

fDate

10-13 Dec. 2012

Firstpage

3564

Lastpage

3569

Abstract

A Multiple Input Multiple Output (MIMO) controller based on the dynamic feedback linearization technique is designed for the robust global stabilization of a new satellite launching strategy called (unmanned) airlaunch. This strategy consists in using a two-stages launching system. The first stage is composed of an airplane (manned or unmanned) that carries a rocket launcher which constitute the subsequent stages. The control objective is to stabilize the aircraft in the launch phase. It is developed and is applied to the full multi-input multi-output model of the aircraft. The considered model is highly nonlinear, mostly as a consequence of possible large angle of attack, sideslip and roll angle. Finally, the present work illustrates through simulations the good performance of the proposed control algorithm.

Keywords

MIMO systems; aircraft control; autonomous aerial vehicles; feedback; nonlinear control systems; stability; MIMO controller; aircraft; airlaunch system; angle of attack; dynamic feedback linearization technique; launching phase; multiple input multiple output controller; nonlinear model; robust global stabilization; rocket launcher; roll angle; satellite launching strategy; sideslip angle; unmanned airlaunch; Aerodynamics; Aerospace control; Aircraft; Atmospheric modeling; Data models; Force; Rockets;

fLanguage

English

Publisher

ieee

Conference_Titel

Decision and Control (CDC), 2012 IEEE 51st Annual Conference on

Conference_Location

Maui, HI

ISSN

0743-1546

Print_ISBN

978-1-4673-2065-8

Electronic_ISBN

0743-1546

Type

conf

DOI

10.1109/CDC.2012.6426432

Filename

6426432