This paper presents new theorems, which allow to design in a unified way robust proportional-derivative (PD)-type control laws without chattering for a broad class of uncertain nonlinear multi-input multi-output (MIMO) systems, subject to bounded disturbances and noises, of great theoretical and engineering relevance. These controllers are used to track a reference signal with bounded second derivative with the tracking error norm smaller than a prescribed value. The proposed control laws are simple to design and implement, above all for robotic systems, both in the case of a trajectory assigned in the joint space and in the workspace. The obtained theoretical results can have numerous applications. In this paper four significant applicatio...
This paper provides a unified approach via majorant systems, which allows one to easily design a fam...
In this paper, a robust control design for robot tracking is introduced in which both electrical and...
In this paper, we propose a robust controller for the tracking of robot motion. This controller is a...
This paper presents new theorems, which allow to design in a unified way robust proportional-derivat...
This paper presents new theorems, which allow to design in a unified way robust proportional-derivat...
This paper presents a comprehensive approach, which allows one to design in a unified way robust smo...
AbstractThis paper provides a systematic method to design robust tracking controllers of reference s...
Introduction There exist many mechanical, electrical, electro-mechanical, thermic, chemical, biologi...
This paper provides a systematic method to design robust tracking controllers of reference signals w...
The paper provides an approach to design robust smooth controllers that allow a plant belonging to a...
This paper presents a novel and general method for control design of linear or nonlinear mechanical...
A robust control design for robot tracking is introduced in which both electrical and mechanical dyn...
In this paper, some theorems are stated, which allow to design robust control laws without chatterin...
The principal problem is the control of a nonlinear system with uncertainty. We will consider a robo...
In this paper, for a significant class of uncertain MIMO systems, in particular for robots, new fund...
This paper provides a unified approach via majorant systems, which allows one to easily design a fam...
In this paper, a robust control design for robot tracking is introduced in which both electrical and...
In this paper, we propose a robust controller for the tracking of robot motion. This controller is a...
This paper presents new theorems, which allow to design in a unified way robust proportional-derivat...
This paper presents new theorems, which allow to design in a unified way robust proportional-derivat...
This paper presents a comprehensive approach, which allows one to design in a unified way robust smo...
AbstractThis paper provides a systematic method to design robust tracking controllers of reference s...
Introduction There exist many mechanical, electrical, electro-mechanical, thermic, chemical, biologi...
This paper provides a systematic method to design robust tracking controllers of reference signals w...
The paper provides an approach to design robust smooth controllers that allow a plant belonging to a...
This paper presents a novel and general method for control design of linear or nonlinear mechanical...
A robust control design for robot tracking is introduced in which both electrical and mechanical dyn...
In this paper, some theorems are stated, which allow to design robust control laws without chatterin...
The principal problem is the control of a nonlinear system with uncertainty. We will consider a robo...
In this paper, for a significant class of uncertain MIMO systems, in particular for robots, new fund...
This paper provides a unified approach via majorant systems, which allows one to easily design a fam...
In this paper, a robust control design for robot tracking is introduced in which both electrical and...
In this paper, we propose a robust controller for the tracking of robot motion. This controller is a...