An experimental study on decentralised backstepping approaches for a hydrostatic drive train with unknown disturbances

Author

Aschemann, Harald ; Meinlschmidt, Thomas ; Sun, Hongbin

Author_Institution

Univ. of Rostock, Rostock, Germany

fYear

2014

fDate

4-6 June 2014

Firstpage

874

Lastpage

879

Abstract

A comparison of two decentralised backstepping control strategies - with and without an integral part - is presented in this paper for the tracking control of a hydrostatic drive train, which is commercially used in working machines. An unknown leakage volume flow and a resulting load torque are taken into account as lumped disturbances. These disturbances and two unmeasurable state variables - the normalised swashplate angle and the normalised bent axis angle - are estimated by a nonlinear observer. Thereby, a high tracking accuracy can be achieved for the normalised bent axis angle and the angular velocity of the motor as controlled variables. The efficiency of the proposed controllers is demonstrated by both simulations and experiments.

Keywords

angular velocity control; control nonlinearities; decentralised control; hydraulic drives; hydrostatics; nonlinear control systems; observers; torque; decentralised backstepping control strategies; hydrostatic drive train; leakage volume flow; load torque; lumped disturbances; motor angular velocity; nonlinear observer; normalised bent axis angle; normalised swashplate angle; tracking control; Accuracy; Actuators; Angular velocity; Backstepping; Mathematical model; Observers; Torque; Backstepping; Fluid power control; Nonlinear systems;

fLanguage

English

Publisher

ieee

Conference_Titel

American Control Conference (ACC), 2014

Conference_Location

Portland, OR

ISSN

0743-1619

Print_ISBN

978-1-4799-3272-6

Type

conf

DOI

10.1109/ACC.2014.6858702

Filename

6858702