Robust control design of a hydraulic actuator using the QFT method

Author

Nandakumar, R. ; Halikias, G.D. ; Zolotas, A.

Author_Institution

Control Eng. Res. Centre, City Univ., London, UK

fYear

2007

fDate

2-5 July 2007

Firstpage

2908

Lastpage

2915

Abstract

In this paper a control design study of a nonlinear hydraulic actuator is presented based on the Quantitative Feedback Theory (QFT). The model is linearized around an operating point and the uncertainty in the nominal plant is quantified. Using the robust design specifications, a robust QFT controller is designed using a novel fixed structure optimization algorithm. The resulting feedback controller has low complexity and, as shown via numerous simulations, is successful in meeting the robust stability and performance specifications of the design. The design illustrates the effectiveness of the proposed algorithm in achieving tight loop-shaping for a real system of medium complexity.

Keywords

control system synthesis; feedback; hydraulic actuators; nonlinear control systems; numerical analysis; robust control; QFT method; fixed structure optimization algorithm; nominal plant; nonlinear hydraulic actuator; numerous simulation; quantitative feedback theory; robust control design; robust design specification; robust stability; Adaptive control; Gain; Hydraulic actuators; Mathematical model; Pistons; Uncertainty;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference (ECC), 2007 European

Conference_Location

Kos

Print_ISBN

978-3-9524173-8-6

Type

conf

Filename

7068561