Attenuation of nonlinear uncertainties using robust control is considered. A system under investigation has a linear nominal part and a nonlinear lumped uncertainty. Robust control is designed using the Lyapunov direct method. It is shown that the proposed control is continuous, guarantees global stability without knowledge of nonlinear dynamics except their size bounding function, and ensures a finite upper bound on the attenuation performance index over an finite horizon. That is, the proposed control is both robust and optimal. As an application, it is shown that the proposed control can be directly applied to robotic manipulators and many other nonlinear systems
Abstract- A mixed Optimal/robust control is proposed is this paper for the tracking of rigid robotic...
This paper presents new theorems, which allow to design in a unified way robust proportional-derivat...
A robust fuzzy control is developed for robot manipulators to guarantee both global stability and pe...
Attenuation of nonlinear uncertainties using robust control is considered. A system under investigat...
A class of fully nonlinear robotic systems with uncertainty is considered. Based on Lyapunov techniq...
Robust control of a general class of uncertain nonlinear systems is investigated. The class of nonli...
The principal problem is the control of a nonlinear system with uncertainty. We will consider a robo...
In this paper, a robust control design for robot tracking is introduced in which both electrical and...
Robust tracking control of nonlinear uncertain cascaded systems is investigated without the assumpti...
To provide better transient performance in controlling robots, a mixed minimum time and quadratic pe...
The robust control problem of a class of nonlinear systems subject to external disturbances, control...
A robust control design for robot tracking is introduced in which both electrical and mechanical dyn...
In this paper, a parameter and uncertainty bound estimation functions for adaptive-robust control of...
To provide better transient performance in controlling robots, the mixed minimum-time and quadratic ...
In this paper, we propose a robust controller for the tracking of robot motion. This controller is a...
Abstract- A mixed Optimal/robust control is proposed is this paper for the tracking of rigid robotic...
This paper presents new theorems, which allow to design in a unified way robust proportional-derivat...
A robust fuzzy control is developed for robot manipulators to guarantee both global stability and pe...
Attenuation of nonlinear uncertainties using robust control is considered. A system under investigat...
A class of fully nonlinear robotic systems with uncertainty is considered. Based on Lyapunov techniq...
Robust control of a general class of uncertain nonlinear systems is investigated. The class of nonli...
The principal problem is the control of a nonlinear system with uncertainty. We will consider a robo...
In this paper, a robust control design for robot tracking is introduced in which both electrical and...
Robust tracking control of nonlinear uncertain cascaded systems is investigated without the assumpti...
To provide better transient performance in controlling robots, a mixed minimum time and quadratic pe...
The robust control problem of a class of nonlinear systems subject to external disturbances, control...
A robust control design for robot tracking is introduced in which both electrical and mechanical dyn...
In this paper, a parameter and uncertainty bound estimation functions for adaptive-robust control of...
To provide better transient performance in controlling robots, the mixed minimum-time and quadratic ...
In this paper, we propose a robust controller for the tracking of robot motion. This controller is a...
Abstract- A mixed Optimal/robust control is proposed is this paper for the tracking of rigid robotic...
This paper presents new theorems, which allow to design in a unified way robust proportional-derivat...
A robust fuzzy control is developed for robot manipulators to guarantee both global stability and pe...