Title :
Fault tolerant control for a robust nonlinear robotics via an optimal H∞ scheme
Author :
Al-Bayati, Ahmad Hussain ; Skaf, Zakwan ; Wang, Hong
Author_Institution :
Control Syst. Center, Univ. of Manchester, Manchester, UK
Abstract :
This paper presents a new optimal Fault tolerant control FTC, which includes anew optimal theorem to design a H∞ controller and new reconfiguration algorithm to reconfigure the controller law. The achieved FTC technique has been applied for Double Two Joints Inverted TJIRA robots arms which raise a plate where the weight of it distributed evenly on the two TJIRA. The study has been carried out different conditions in terms of an additive fault and a white noise as disturbance, where the angles of the two arms position have been considered. As results, Matlab simulation of a TJIRA is undertaken while CVX optimizing software is used to obtain the optimal parameters and to verify the performance of the proposed theorem. The simulation results are obtained to show the high performance of the proposed FTC technique which reflects on the speed of the arms motion to overcome on the effects of the fault and noise.
Keywords :
H∞ control; fault tolerance; nonlinear control systems; robots; robust control; white noise; CVX optimizing software; H∞ controller design; Matlab simulation; additive fault; controller law; double two joints inverted TJIRA robots arms; optimal H∞ scheme; optimal fault tolerant control; optimal parameters; optimal theorem; reconfiguration algorithm; robust nonlinear robotics; white noise; Fault tolerance; Joints; Linear matrix inequalities; Manipulators; Output feedback; Vectors; FTC; Fault Tolerant control; HJI; Hamilton-Jacobi Inequality; Inequality; NLMI; Nonlinear Matrix; SOF; Static Output Feed Back Control; TJIRA; Two Joints Inverted Robot Arms;
Conference_Titel :
Intelligent Control and Automation (WCICA), 2012 10th World Congress on
Conference_Location :
Beijing
Print_ISBN :
978-1-4673-1397-1
DOI :
10.1109/WCICA.2012.6358433
