Control of an industrial robot is mainly a problem of dynamics. It includes non-linearities, uncertainties and external perturbations that should be considered in the design of control laws. In this work, two control strategies based on variable structure controllers (VSC) and a PD control algorithm are compared in relation to the tracking errors considering friction. The controller's performances are evaluated by adding an static friction model. Simulations and experimental results show it is possible to diminish tracking errors by using a model based friction compensation scheme. A SCARA robot is used to illustrate the conclusions of this paper
A new sliding controller is proposed. Second order linear system sliding curves eliminate the reachi...
J. Kolodziej The sliding mode controller, based on the theory of the Variable Structure System (VSS)...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University, 1...
Friction effects are particularly critical for industrial robots, since they can induce large positi...
Friction is responsible for several servomechanism problems, and their elimination is always a chall...
This paper focuses on the experimental results of the position tracking control of a flexible joint ...
Abstract. The paper discusses a tracking control system and shows with simulation and experimental r...
Control strategies are investigated for friction compensation in servomechanisms. As part of the inv...
Automation technology has been extensively recognized as an emerging field in various industrial app...
Automation technology has been extensively recognized as an emerging field in various industrial app...
Abstract: In this paper a tracking control algorithm is introduced for robotic systems with unknown ...
This paper describes a comparative investigation of friction- compensating control strategies design...
All mechanical systems with moving parts are affected by friction, including industrial robots. Bein...
This thesis presents the design and simulation of a friction compensation technique for position con...
Abstract — Stick-slip phenomenon is often associated with the control of low velocity motion because...
A new sliding controller is proposed. Second order linear system sliding curves eliminate the reachi...
J. Kolodziej The sliding mode controller, based on the theory of the Variable Structure System (VSS)...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University, 1...
Friction effects are particularly critical for industrial robots, since they can induce large positi...
Friction is responsible for several servomechanism problems, and their elimination is always a chall...
This paper focuses on the experimental results of the position tracking control of a flexible joint ...
Abstract. The paper discusses a tracking control system and shows with simulation and experimental r...
Control strategies are investigated for friction compensation in servomechanisms. As part of the inv...
Automation technology has been extensively recognized as an emerging field in various industrial app...
Automation technology has been extensively recognized as an emerging field in various industrial app...
Abstract: In this paper a tracking control algorithm is introduced for robotic systems with unknown ...
This paper describes a comparative investigation of friction- compensating control strategies design...
All mechanical systems with moving parts are affected by friction, including industrial robots. Bein...
This thesis presents the design and simulation of a friction compensation technique for position con...
Abstract — Stick-slip phenomenon is often associated with the control of low velocity motion because...
A new sliding controller is proposed. Second order linear system sliding curves eliminate the reachi...
J. Kolodziej The sliding mode controller, based on the theory of the Variable Structure System (VSS)...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University, 1...