Multivariable Controller Design for a Hydraulic Screw-down System with Experiments

Author

Ning, Shurong ; Wang, Yiqun

Author_Institution

Yanshan Univ., Qinhuangdao

fYear

2007

fDate

5-8 Aug. 2007

Firstpage

3300

Lastpage

3304

Abstract

In this paper the synchronization issue of two hydraulic cylinders is considered in hydraulic screw-down system. Accounting for the two cylinders system with complicated dynamics characterized by nonlinear, time-varying and load coupling properties, a decoupling arithmetic based on dynamic ANN inverse system is proposed. Firstly, the reversibility of the system is analyzed and the inverse dynamic is constructed based on a static neural network and an integrator. Secondly, the decoupled pseudo-linear system can be obtained through combining the inverse dynamic model with the original system in series. Aim to pseudo-linear system NN-PID controller is proposed to satisfy high performance control. Experiments were conducted to verify the performance of the proposed controller and have shown that the system has good transient response on 300-reversible cold mill.

Keywords

hydraulic systems; multivariable control systems; neurocontrollers; three-term control; decoupled pseudo-linear system; decoupling arithmetic; dynamic artificial neural nets inverse system; hydraulic cylinder; hydraulic screw-down system; multivariable controller design; pseudo-linear system NN-PID controller; static neural network; Arithmetic; Artificial neural networks; Control systems; Couplings; Inverse problems; Milling machines; Neural networks; Nonlinear dynamical systems; Time varying systems; Transient response; 300 revertible cold mill; ANN inverse system; NN-PID controller; hydraulic screw-down system;

fLanguage

English

Publisher

ieee

Conference_Titel

Mechatronics and Automation, 2007. ICMA 2007. International Conference on

Conference_Location

Harbin

Print_ISBN

978-1-4244-0828-3

Electronic_ISBN

978-1-4244-0828-3

Type

conf

DOI

10.1109/ICMA.2007.4304091

Filename

4304091