Nonlinear tracking control design of a robot arm using robust right coprime factorization and sliding mode approaches

Abstract: In this paper, a nonlinear tracking control of a robot arm in the presence of uncertainties is proposed by using robust right coprime factorization and sliding mode approaches. In general, there exist unknown modeling errors in measuring structural parameters of the robot arm and external disturbances in real situations. In the present control system design, the effect of the modeling errors and disturbance on the system performance is considered to be uncertainties of the robot arm dynamics. Considering the u… Show more

“…The accurate control of a robot is a challenging task and a nonlinear robust scheme is required for the robot manipulator controller (Khalate et al, 2014; Zheng et al, 2014). The pioneering work of adaptive output feedback control to cope with hysteresis can be traced back to the work of Tao and Kokotović (1995).…”

An adaptive robust control scheme for robot manipulators with unknown backlash nonlinearity in gears

“…The accurate control of a robot is a challenging task and a nonlinear robust scheme is required for the robot manipulator controller (Khalate et al, 2014; Zheng et al, 2014). The pioneering work of adaptive output feedback control to cope with hysteresis can be traced back to the work of Tao and Kokotović (1995).…”

An adaptive robust control scheme for robot manipulators with unknown backlash nonlinearity in gears

Control of Robot Manipulators with a Model for Backlash Nonlinearity in Gears

Model predictive control of a two-link robot arm