The control of lightweight and high speed manipulators requires special strategies to prevent and damp the vibrations caused by the inertial components of motion, especially when dealing with flexible-links mechanism. In this paper a constrained MPC (Model Predictive Control) system is proposed as an effective control strategy for position and vibration control of flexible links mechanism. Here this control system is applied to an electric actuated four-link planar mechanism with three flexible links laying on the horizontal plane. The effectiveness of this controller is evaluated by the means of exhaustive numerical simulations
This paper presents an experimental evaluation of joint torque control in a flexible joint robot usi...
Flexible link manipulators have recently high attention in research due to the numerous advantages o...
Although the dynamics of flexible link mechanisms and manipulators is nonlinear, motion and vibratio...
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...
In this paper, a numerical investigation of the Model Predictive Control strategy applied to flexibl...
This paper presents a review on various studies of flexible link manipulators which cover mathematic...
Flexible manipulators are widely used because of the many advantages it provides like low weight, lo...
This paper proposes the use of Model Predictive Control (MPC) to control a fast mechanical system. I...
This paper is concerned with the vibration and position control of a single link flexible manipulato...
This thesis deals with modelling and control of flexible mechatronic systems. The flexible mechatron...
In this paper reduction of vibration of a flexible planar mechanism is achieved through synthesis of...
A model and a control scheme for a flexible four-bar linkage is described. The discrete finite eleme...
Force control of a two-link planar manipulator with one flexible link is considered in this study. T...
A control scheme for a four-bar linkage with all the links flexible is proposed and tested both nume...
This paper presents an experimental evaluation of joint torque control in a flexible joint robot usi...
Flexible link manipulators have recently high attention in research due to the numerous advantages o...
Although the dynamics of flexible link mechanisms and manipulators is nonlinear, motion and vibratio...
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...
In this paper, a numerical investigation of the Model Predictive Control strategy applied to flexibl...
This paper presents a review on various studies of flexible link manipulators which cover mathematic...
Flexible manipulators are widely used because of the many advantages it provides like low weight, lo...
This paper proposes the use of Model Predictive Control (MPC) to control a fast mechanical system. I...
This paper is concerned with the vibration and position control of a single link flexible manipulato...
This thesis deals with modelling and control of flexible mechatronic systems. The flexible mechatron...
In this paper reduction of vibration of a flexible planar mechanism is achieved through synthesis of...
A model and a control scheme for a flexible four-bar linkage is described. The discrete finite eleme...
Force control of a two-link planar manipulator with one flexible link is considered in this study. T...
A control scheme for a four-bar linkage with all the links flexible is proposed and tested both nume...
This paper presents an experimental evaluation of joint torque control in a flexible joint robot usi...
Flexible link manipulators have recently high attention in research due to the numerous advantages o...
Although the dynamics of flexible link mechanisms and manipulators is nonlinear, motion and vibratio...