Add to ORKGThis paper considers control of rigid robot manipulators with revolute joints in the absence of knowledge of the robot model physical parameters using only joint angular position feedback. A sliding mode observer is constructed to estimate the joint angular velocities. An adaptive estimation and control law is derived such that in the closed-loop system, the tracking error and the state estimation error asymptotically converge to zero. The adaptive controller includes a dynamic system in the feedback path and requires no knowledge of the robot\u27s dynamics in its derivation
This paper addresses the motion control in joint space of robot manipulators with friction described...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
Operational problems with robots in space relate to several factors. One of the most important facto...
This paper considers control of rigid robot manipulators with revolute joints in the absence of know...
This study presents a comparison of dierent control laws for the trajectory control of a revolute-jo...
Abstract: An adaptive gain, smooth sliding observer-controller is developed to control n-degree of f...
An adaptive controller is proposed, for the tracking control of robotic manipulators that does not r...
This paper develops an adaptive controller for robot manipulators. The design decouples the system's...
International audiencePresents an adaptive control scheme for flexible joint robot manipulators. Asy...
This research project contains three main aspects. First, an observer-based controller is considered...
An adaptive gain sliding observer for uncertain parameter nonlinear systems together with an adaptiv...
This paper addresses the motion control in joint space of robot manipulators with friction described...
An adaptive model following control law for nonlinear robotic systems with rotational joints is pres...
International audienceAn adaptive gain, smooth sliding observer-controller is developed to control u...
In this paper we present an observer-based adaptive control scheme for robot manipulators, for which...
This paper addresses the motion control in joint space of robot manipulators with friction described...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
Operational problems with robots in space relate to several factors. One of the most important facto...
This paper considers control of rigid robot manipulators with revolute joints in the absence of know...
This study presents a comparison of dierent control laws for the trajectory control of a revolute-jo...
Abstract: An adaptive gain, smooth sliding observer-controller is developed to control n-degree of f...
An adaptive controller is proposed, for the tracking control of robotic manipulators that does not r...
This paper develops an adaptive controller for robot manipulators. The design decouples the system's...
International audiencePresents an adaptive control scheme for flexible joint robot manipulators. Asy...
This research project contains three main aspects. First, an observer-based controller is considered...
An adaptive gain sliding observer for uncertain parameter nonlinear systems together with an adaptiv...
This paper addresses the motion control in joint space of robot manipulators with friction described...
An adaptive model following control law for nonlinear robotic systems with rotational joints is pres...
International audienceAn adaptive gain, smooth sliding observer-controller is developed to control u...
In this paper we present an observer-based adaptive control scheme for robot manipulators, for which...
This paper addresses the motion control in joint space of robot manipulators with friction described...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
Operational problems with robots in space relate to several factors. One of the most important facto...