This paper presents a methodology for the compensation of nonlinear friction in a robot joint structure based on a fuzzy local modeling technique. To enhance the tracking performance of the robot joint, a dynamic model is derived from the local physical properties of friction. The model is the basis of a precompensator taking into account the dynamics of the overall corrected system by means of a minor loop. The proposed structure does not claim to faithfully reproduce complex phenomena driven by friction. However, the linearity of the local models simplifies the design and implementation of the observer, and its estimation capabilities are improved by the nonlinear integral gain. The controller can then be robustly synthesized using linear...
In this paper, an integrated adaptive-robust approach along with a smooth adaptive robust friction c...
Automation technology has been extensively recognized as an emerging field in various industrial app...
In this paper, we design an adaptive controller to compensate the nonlinear friction model when the ...
This paper presents a methodology for the compensation of nonlinear friction in a robot joint struct...
A new methodology to design an optimal state feedback controlled to solve problems mainly caused by ...
For robot manipulators, there are two types of disturbances. One is model parametric uncertainty; th...
[[abstract]]A robust tracking control design of robot systems including motor dynamics with paramete...
Purpose - The purpose of this paper is to propose a new joint friction model, which can accurately m...
In this article, two new smooth robust nonlinear compensators have been developed, respectively, for...
Abstract — In this paper we introduce a friction observer for robots with joint torque sensing (in p...
Abstract—In many applications of motion control, the occur-rence of nonlinear friction constitutes a...
In this paper, we propose an adaptive friction compensation strategy for flexible-joint robotic mani...
Existing Proportional-Integral-Derivative (PID) robotic controllers rely on an inverse kinematic mod...
In most robot applications, the control of the manipulator’s end-effector along a specified desired ...
Precise tracking positioning performance in the presence of both the deadzone and friction of a robo...
In this paper, an integrated adaptive-robust approach along with a smooth adaptive robust friction c...
Automation technology has been extensively recognized as an emerging field in various industrial app...
In this paper, we design an adaptive controller to compensate the nonlinear friction model when the ...
This paper presents a methodology for the compensation of nonlinear friction in a robot joint struct...
A new methodology to design an optimal state feedback controlled to solve problems mainly caused by ...
For robot manipulators, there are two types of disturbances. One is model parametric uncertainty; th...
[[abstract]]A robust tracking control design of robot systems including motor dynamics with paramete...
Purpose - The purpose of this paper is to propose a new joint friction model, which can accurately m...
In this article, two new smooth robust nonlinear compensators have been developed, respectively, for...
Abstract — In this paper we introduce a friction observer for robots with joint torque sensing (in p...
Abstract—In many applications of motion control, the occur-rence of nonlinear friction constitutes a...
In this paper, we propose an adaptive friction compensation strategy for flexible-joint robotic mani...
Existing Proportional-Integral-Derivative (PID) robotic controllers rely on an inverse kinematic mod...
In most robot applications, the control of the manipulator’s end-effector along a specified desired ...
Precise tracking positioning performance in the presence of both the deadzone and friction of a robo...
In this paper, an integrated adaptive-robust approach along with a smooth adaptive robust friction c...
Automation technology has been extensively recognized as an emerging field in various industrial app...
In this paper, we design an adaptive controller to compensate the nonlinear friction model when the ...