AbstractThis work deals with the stabilization and control of a system which is composed of a disk rolling on a plane, a translational joint attached along the disk's axis, and a controlled rod that moves along the translational joint (see Figures 1 and 2). The disk's motion is controlled by the moving rod, a “directional control” moment, and a pedalling moment. It is shown here that by applying a kind of inverse dynamics control, the motion of the disk is stabilized, while simultaneously controlling its speed and direction in such a manner that the point of contact between the disk and the horizontal plane will be able asymptotically to track any given smooth ground trajectory
This paper studies the stabilization, tracking of a predefined trajectory and how to reach a desired...
Abstract: The control problem is investigated with reference to a system which consists of...
AbstractThis work deals with the stabilization and collision avoidance control of a riderless bicycl...
AbstractThis work deals with the stabilization and control of a system which is composed of a disk r...
AbstractThis work deals with the stabilization and control of a system which is composed of a disk r...
AbstractThis work deals with the stabilization and control of a system which is composed of a disk r...
AbstractThis work deals with the control of the motion of a disk rolling without slipping ona helix....
AbstractThis work deals with the control of the motion of a disk rolling without slipping on a curve...
Abstract — This paper presents stabilization control of a rolling manipulation system called the dis...
Aim of the paper is the control of a disk, which is rolling without slipping on an unknown curve. Af...
In the classical control theory literature, the inverted pendulum stabilization problem has been ad...
This paper deals with the brachistochronic motion of a thin uniform disk rolling on a horizontal pla...
In this paper we address the problem of controlling a disk, rolling on a horizontal plane, using onl...
In this brief, we propose a passivity-based control design for a rolling-balancing system called the...
In this brief, we propose a passivity-based control design for a rolling-balancing system called the...
This paper studies the stabilization, tracking of a predefined trajectory and how to reach a desired...
Abstract: The control problem is investigated with reference to a system which consists of...
AbstractThis work deals with the stabilization and collision avoidance control of a riderless bicycl...
AbstractThis work deals with the stabilization and control of a system which is composed of a disk r...
AbstractThis work deals with the stabilization and control of a system which is composed of a disk r...
AbstractThis work deals with the stabilization and control of a system which is composed of a disk r...
AbstractThis work deals with the control of the motion of a disk rolling without slipping ona helix....
AbstractThis work deals with the control of the motion of a disk rolling without slipping on a curve...
Abstract — This paper presents stabilization control of a rolling manipulation system called the dis...
Aim of the paper is the control of a disk, which is rolling without slipping on an unknown curve. Af...
In the classical control theory literature, the inverted pendulum stabilization problem has been ad...
This paper deals with the brachistochronic motion of a thin uniform disk rolling on a horizontal pla...
In this paper we address the problem of controlling a disk, rolling on a horizontal plane, using onl...
In this brief, we propose a passivity-based control design for a rolling-balancing system called the...
In this brief, we propose a passivity-based control design for a rolling-balancing system called the...
This paper studies the stabilization, tracking of a predefined trajectory and how to reach a desired...
Abstract: The control problem is investigated with reference to a system which consists of...
AbstractThis work deals with the stabilization and collision avoidance control of a riderless bicycl...