In this paper, a numerical investigation of the Model Predictive Control strategy applied to flexible-link mechanisms is presented. The mechanisms used for all the tests are a planar five-link mechanisms. The tests are aimed at showing how the proposed control system can be used for the trajectory tracking and the vibration suppression. An analysis of the effects of the choice of tuning parameters is presented as well. The design of the predictive controller is based on a linearized version of an accurate nonlinear dynamic model. The effectiveness of the proposed approach is confirmed by extensive numerical results
This paper presents investigations into the development of control schemes for end-point vibration...
Abstract: A new method is proposed for the end-effector trajectory tracking control of flexi-ble rob...
A model and a control scheme for a flexible four-bar linkage is described. The discrete finite eleme...
The control of lightweight and high speed manipulators requires special strategies to prevent and da...
In this paper, position control and reduction of vibration of a 3D flexible L-shape mechanism has be...
The paper presents an approach to end point trajectory control of elastic manipulators based on the ...
In this paper reduction of vibration of a flexible planar mechanism is achieved through synthesis of...
A control scheme for a four-bar linkage with all the links flexible is proposed and tested both nume...
Part 8: Industrial ApplicationsInternational audienceThis paper presents the development of a genera...
This paper presents the experimental validation of a model-based robust approach to the synthesis of...
In this paper a novel nonlinear controller for position and vibration control of flexible-link mecha...
In this thesis, we develop robust dynamical controllers for addressing the problems of tracking and ...
This paper introduces a general and practical procedure for the design of high-performance and robus...
A new method is developed for the end-effector trajectory tracking control of robots with flexible l...
Although the dynamics of flexible link mechanisms and manipulators is nonlinear, motion and vibratio...
This paper presents investigations into the development of control schemes for end-point vibration...
Abstract: A new method is proposed for the end-effector trajectory tracking control of flexi-ble rob...
A model and a control scheme for a flexible four-bar linkage is described. The discrete finite eleme...
The control of lightweight and high speed manipulators requires special strategies to prevent and da...
In this paper, position control and reduction of vibration of a 3D flexible L-shape mechanism has be...
The paper presents an approach to end point trajectory control of elastic manipulators based on the ...
In this paper reduction of vibration of a flexible planar mechanism is achieved through synthesis of...
A control scheme for a four-bar linkage with all the links flexible is proposed and tested both nume...
Part 8: Industrial ApplicationsInternational audienceThis paper presents the development of a genera...
This paper presents the experimental validation of a model-based robust approach to the synthesis of...
In this paper a novel nonlinear controller for position and vibration control of flexible-link mecha...
In this thesis, we develop robust dynamical controllers for addressing the problems of tracking and ...
This paper introduces a general and practical procedure for the design of high-performance and robus...
A new method is developed for the end-effector trajectory tracking control of robots with flexible l...
Although the dynamics of flexible link mechanisms and manipulators is nonlinear, motion and vibratio...
This paper presents investigations into the development of control schemes for end-point vibration...
Abstract: A new method is proposed for the end-effector trajectory tracking control of flexi-ble rob...
A model and a control scheme for a flexible four-bar linkage is described. The discrete finite eleme...