Practical tracking control under actuator saturation for a class of flexible-joint robotic manipulators driven by DC motors

Abstract: This paper is devoted to the practical tracking control for a class of flexible-joint robotic manipulators driven by DC motors. Different from the related literature where control constraint is neglected and the disturbances are excluded or only exist in one subsystem, actuator saturation is considered in this paper while the disturbances are present in all the three subsystems. This leads to the incapability of the traditional schemes on this topic. For this, a novel control design scheme is proposed by skill… Show more

“…In recent years, robotic manipulation has also expanded to a much broader scope, including manipulation in artistic applications [2] and anthropic environments [3], micro-and nanoscales manipulation [4] and swarm manipulation [5]. With the increasing demand for rapid response and high-precision control of robot manipulators, the improvement of tracking performance remains an attractive and open problem [6,7].…”

Model-free adaptive trajectory tracking control of robotic manipulators with practical prescribed-time performance

“…In recent years, robotic manipulation has also expanded to a much broader scope, including manipulation in artistic applications [2] and anthropic environments [3], micro-and nanoscales manipulation [4] and swarm manipulation [5]. With the increasing demand for rapid response and high-precision control of robot manipulators, the improvement of tracking performance remains an attractive and open problem [6,7].…”

Model-free adaptive trajectory tracking control of robotic manipulators with practical prescribed-time performance

Adaptive finite-time fault-tolerant control for the full-state-constrained robotic manipulator with novel given performance

Tracking control via time-varying feedback for an uncertain robotic system with both output constraint and dead-zone input