Robust control for attitude tracking problem for a quadrotor unmanned aerial vehicle

Author

Mokhtari, M. Rida ; Cherki, Brahim

Author_Institution

Electr. Eng. Dept., Tlemcen Univ., Tlemcen, Algeria

fYear

2013

fDate

29-31 Oct. 2013

Firstpage

862

Lastpage

867

Abstract

This paper proposes a new robust control based on a modified finite time algorithm for the attitude tracking of a quadrotor system to achieve a finite time convergence for all errors states. A complete version of the dynamical system based on Newton-Euler formalism is used. The stability of this algorithm is derived using a strong Lyapunov function technique, this approach allows not only to study more deeply the known properties of finite time convergence and robustness to strong perturbations, but also improve the dynamical performance and reduce the chattering phenomena. The simulation results are provided in order to illustrate the performances of the proposed controller.

Keywords

Lyapunov methods; Newton method; attitude control; autonomous aerial vehicles; convergence of numerical methods; perturbation techniques; position control; robust control; Lyapunov function technique; Newton-Euler formalism; UAV; attitude tracking problem; chattering phenomena reduction; dynamical performance; errors states; finite time convergence; modified finite time algorithm; perturbations; quadrotor unmanned aerial vehicle; robust control; stability; Attitude control; Convergence; IEEE conference proceedings; Robust control; Robustness; Rotors; Trajectory; Finite time; dynamic model of quadrotor; robust control; sliding mode; unmanned aerial vehicles (UAV);

fLanguage

English

Publisher

ieee

Conference_Titel

Systems and Control (ICSC), 2013 3rd International Conference on

Conference_Location

Algiers

Print_ISBN

978-1-4799-0273-6

Type

conf

DOI

10.1109/ICoSC.2013.6750958

Filename

6750958