An Exact Differential Flatness Control for a Non Minimum Phase Model of an Inverted Pendulum

Author

Mansour, Ali ; Jerbi, Houssem

Author_Institution

Autom. des Processus, Ecole Polyteclinique de Tunisie, La Marsa

fYear

2009

fDate

25-29 May 2009

Firstpage

465

Lastpage

469

Abstract

This paper develops the swinging-up control of an inverted pendulum using the Lie-Backlund approach to equivalence and flatness. In this system, the friction between the cart and the rail is considered to reach the real system. Two goals of controlling the inverted pendulum are investigated in this work. The first one is to balance the pendulum by applying differential flatness; and the second one is to keep the inverted pendulum in a position of muddled vertical balance along a trajectory, when it initially starts with zero angle of the vertical position. Our main contribution consists in applying the exact flat output for the synthesis of the differential flatness control law. A better precise trajectory tracking is then obtained, with an accurate control signal developed for a particular case of a non minimum phase inverted pendulum.

Keywords

control system synthesis; nonlinear control systems; pendulums; position control; Lie-Backlund approach; control system synthesis; differential flatness control; inverted pendulum; muddled vertical balance; nonminimum phase model; swinging-up control; trajectory tracking; Asia; Automatic control; Control systems; Friction; Linear feedback control systems; Rails; Robust control; Signal synthesis; Sliding mode control; Trajectory; differential flatness; inverted pendulum; non minimum phase system; trajectory tracking;

fLanguage

English

Publisher

ieee

Conference_Titel

Modelling & Simulation, 2009. AMS '09. Third Asia International Conference on

Conference_Location

Bali

Print_ISBN

978-1-4244-4154-9

Electronic_ISBN

978-0-7695-3648-4

Type

conf

DOI

10.1109/AMS.2009.123

Filename

5072031