Inverse model based adaptive control of magnetic levitation system

Author

Shafiq, Muhammad ; Akhtar, Sohail

Author_Institution

Dept. of Syst. Eng., King Fahd Univ. of Pet. & Miner., Dhahran, Saudi Arabia

Volume

3

fYear

2004

fDate

20-23 July 2004

Firstpage

1414

Abstract

This paper presents, an adaptive finite impulse response (FIR) filter based controller used for the tracking of a ferric ball under the influence of magnetic force. The adaptive filter is designed online as approximate inverse system. To stabilize the open-loop unstable and highly nonlinear magnetic levitation system, PID controller is designed using polynomial approach. To improve the stability, an adaptive FIR filter is added along side the PID controller while the use of the proposed controller has improved tracking. Since adaptive FIR filters are inherently stable so the controller remains stable. Experimental results are included to highlight the excellent position tracking performance.

Keywords

FIR filters; adaptive control; control system synthesis; magnetic levitation; nonlinear systems; open loop systems; polynomials; stability; three-term control; PID controller; adaptive finite impulse response filter based controller; approximate inverse system; ferric ball; highly nonlinear system; inverse model based adaptive control; open-loop unstable magnetic levitation system; polynomial approach; position tracking; Adaptive control; Adaptive filters; Finite impulse response filter; Force control; Inverse problems; Magnetic levitation; Magnetic separation; Open loop systems; Programmable control; Three-term control;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference, 2004. 5th Asian

Conference_Location

Melbourne, Victoria, Australia

Print_ISBN

0-7803-8873-9

Type

conf

Filename

1426854