Three nonlinear continuous-time predictive control schemes are proposed to address the trajectory tracking control problem of rigid link robot manipulators. The control laws using state variable feedback minimize a quadratic performance index of the state predicted tracking error. Without online optimization, an asymptotic tracking of smooth reference trajectories is guaranteed. The proposed controllers achieve the positions and speed tracking objectives via link position measurements. Lyapunov theory is used to prove the boundedness and stability convergence of the state tracking. Robustness with respect to payload uncertainties and viscous friction is shown. Simulations for a two-link rigid robot are performed to validate the proposed con...
The chapter analyzes the model-based nonlinear control approaches for multi-DOF rigid-link robots, t...
IEEE International Conference on Control Applications, CCA 2010; Yokohama; Japan; 8 September 2010 t...
In this thesis, we develop robust dynamical controllers for addressing the problems of tracking and ...
The approximate nonlinear receding-horizon control law is used to treat the trajectory tracking cont...
The approximate nonlinear receding-horizon control law is used to treat the trajectory tracking cont...
In this paper the optimal nonlinear predictive control structure with integral action is presented, ...
In control system, the practical interest is driven by the fact that today’s processes need to be op...
In industrial control systems, practical interest is driven by the fact that today’s processes need ...
In industrial control systems, practical interest is driven by the fact that today’s processes need ...
A new method is developed for the end-effector trajectory tracking control of robots with flexible l...
The chapter analyzes model-free nonlinear control approaches for multi-DOF rigid-link robots, based ...
This paper presents a solution to the global adaptive partial state feedback control problem for rig...
In this article, two new smooth robust nonlinear compensators have been developed, respectively, for...
2014 IEEE Conference on Control Applications, CCA 2014; Juan Les Antibes; France; 8 October 2014 thr...
49th IEEE Conference on Decision and Control, CDC 2010; Atlanta, GA; United States; 15 December 2010...
The chapter analyzes the model-based nonlinear control approaches for multi-DOF rigid-link robots, t...
IEEE International Conference on Control Applications, CCA 2010; Yokohama; Japan; 8 September 2010 t...
In this thesis, we develop robust dynamical controllers for addressing the problems of tracking and ...
The approximate nonlinear receding-horizon control law is used to treat the trajectory tracking cont...
The approximate nonlinear receding-horizon control law is used to treat the trajectory tracking cont...
In this paper the optimal nonlinear predictive control structure with integral action is presented, ...
In control system, the practical interest is driven by the fact that today’s processes need to be op...
In industrial control systems, practical interest is driven by the fact that today’s processes need ...
In industrial control systems, practical interest is driven by the fact that today’s processes need ...
A new method is developed for the end-effector trajectory tracking control of robots with flexible l...
The chapter analyzes model-free nonlinear control approaches for multi-DOF rigid-link robots, based ...
This paper presents a solution to the global adaptive partial state feedback control problem for rig...
In this article, two new smooth robust nonlinear compensators have been developed, respectively, for...
2014 IEEE Conference on Control Applications, CCA 2014; Juan Les Antibes; France; 8 October 2014 thr...
49th IEEE Conference on Decision and Control, CDC 2010; Atlanta, GA; United States; 15 December 2010...
The chapter analyzes the model-based nonlinear control approaches for multi-DOF rigid-link robots, t...
IEEE International Conference on Control Applications, CCA 2010; Yokohama; Japan; 8 September 2010 t...
In this thesis, we develop robust dynamical controllers for addressing the problems of tracking and ...