Title :
Integral sliding mode control with adaptive boundary of nonlinearities for robot manipulators
Author_Institution :
Dept. of Electr. Eng., Hankyong Nat. Univ., Gyeonggi-do, South Korea
Abstract :
In this paper, we propose an integral sliding mode control with the bound estimation of the uncertain nonlinear parameters for the robot dynamics. For the bound estimation, we assume that the upper bound of the uncertain nonlinearities is represented as a Fredholm integral equation of the first kind. We also provide a sufficient condition for the existence of such a representation. The construction of an adaptation law is only dependent on the sliding surface function. Using the estimated bound, the integral sliding mode control is constructed in such a way that the prescribed sliding surface will attract every system´s trajectory and the trajectory will remain within a small boundary layer of the sliding surface for all subsequent time.
Keywords :
Fredholm integral equations; adaptive control; control nonlinearities; estimation theory; manipulator dynamics; position control; uncertain systems; variable structure systems; Fredholm integral equation; adaptation law; adaptive boundary; bound estimation; integral sliding mode control; robot dynamics; robot manipulators; sliding surface function; sufficient condition; trajectory; uncertain nonlinear parameters; uncertain nonlinearity; Adaptive control; Integral equations; Manipulators; Programmable control; Robots; Sliding mode control; Adapative Boundary; Fredholm integral; Integral Sliding Mode;
Conference_Titel :
ICCAS-SICE, 2009
Conference_Location :
Fukuoka
Print_ISBN :
978-4-907764-34-0
Electronic_ISBN :
978-4-907764-33-3
