Synchronous Control of Flying-type Welder Based on RBF Neuron Network

Author

Sun, Xinxue ; Rong, Qian ; Fu, Yongling ; Lu, Ning

Author_Institution

Hebei Inst. of Archit. & Civil Eng., Zhangjiakou

fYear

2007

fDate

18-21 Aug. 2007

Firstpage

293

Lastpage

298

Abstract

According to the traveling behaviors of flying-welder and billets being rolling in a EBROS (endless-bar rolling system), an inverse mode of welder driving system is identified off-line based on RBF neural networks, a disturbance observer is established with a filter to predict and at last remove the disturbances existed inside the system or from outside; a single neural composite-controller is used to improve the dynamic and static properties of the system, and strength the tracking performance of welder for the billet being rolled. The simulation results on the system dictates that this control strategy can well remove the mechanical coupling forces between the billets being rolled and the welder, improve the dynamic tracking performance of welder for the billet being rolling.

Keywords

billets; neurocontrollers; observers; process control; radial basis function networks; rolling; welding equipment; RBF neuron network; billets; disturbance observer; endless-bar rolling system; flying-type welder; single neural composite-controller; synchronous control; welder driving system; AC motors; Aerodynamics; Automatic control; Automation; Billets; Control systems; Neural networks; Neurons; Shafts; Welding; RBF; composite control; disturbance observer; endless rolling; synchronous control;

fLanguage

English

Publisher

ieee

Conference_Titel

Automation and Logistics, 2007 IEEE International Conference on

Conference_Location

Jinan

Print_ISBN

978-1-4244-1531-1

Type

conf

DOI

10.1109/ICAL.2007.4338574

Filename

4338574