Design of attitude control system for an UAV type-quadrotor based on dynamic contraction method

Author

Czyba, Roman

Author_Institution

Dept. of Autom. Control, Silesian Univ. of Technol., Gliwice, Poland

fYear

2009

fDate

14-17 July 2009

Firstpage

644

Lastpage

649

Abstract

The problem of attitude stabilization and robust regulation of an indoor unmanned aerial vehicle, known as a quadrotor, is considered. This paper presents the design of continuous-time controller based on dynamic contraction method. The control task is formulated as a tracking problem of Euler angles, where desired output transients are accomplished in spite of incomplete information about varying parameters of the system and external disturbances. The resulting controller is a combination of a low-order linear dynamical system and a subsystem which accomplishes an algorithm of quadrotor control. The experiment results for tracking a reference signal are presented, and confirm the effectiveness of the proposed method and theoretical expectations.

Keywords

aircraft control; attitude control; continuous time systems; control system synthesis; linear systems; remotely operated vehicles; robust control; Euler angle; UAV type-quadrotor; attitude control system design; attitude stabilization; continuous-time controller; dynamic contraction method; low-order linear dynamical system; quadrotor indoor unmanned aerial vehicle; robust regulation; Attitude control; Control systems; Mathematical model; Mechatronics; Propellers; Risk management; Rotors; Sliding mode control; Unmanned aerial vehicles; Vehicle dynamics;

fLanguage

English

Publisher

ieee

Conference_Titel

Advanced Intelligent Mechatronics, 2009. AIM 2009. IEEE/ASME International Conference on

Conference_Location

Singapore

Print_ISBN

978-1-4244-2852-6

Type

conf

DOI

10.1109/AIM.2009.5229940

Filename

5229940