Abstract-We introduced models for a 3D pendulum, consisting of a rigid body that is supported at a frictionless pivot, in a 2004 CDC paper [1]. In that paper, several different classifications were given and models were developed for each classification. Control problems were posed based on these various models. This paper continues that line of research by studying stabilization problems for a reduced model of the 3D pendulum. Two different stabilization strategies are proposed. The first controller, based on angular velocity feedback only, asymptotically stabilizes the hanging equilibrium. The domain of attraction is shown to be almost global. The second controller, based on angular velocity and reduced attitude feedback, asymptotically s...
The paper deals with the global stabilization of both the attitude and the angular velocities of an ...
The paper deals with the global stabilization of both the attitude and the angular velocities of an ...
The objective of this paper is to develop a control scheme for stabilization of a hamiltonian system...
Attitude control is fundamental to the design and operation of many large engineering systems that c...
The 3D pendulum consists of a rigid body, supported at a fixed pivot, with three rotational degrees ...
Abstract — New pendulum models are introduced and stud-ied. The pendulum consists of a rigid body, s...
Abstract—New pendulum models are introduced and stud-ied. The pendulum consists of a rigid body, sup...
© 2007 Dr. Guangyu LiuThis dissertation addresses modelling, stabilization and trajectory tracking o...
International audienceWe investigate the problem of stabilising the attitude of a 3-D axially symmet...
International audienceWe investigate the problem of stabilising the attitude of an axially symmetric...
peer reviewedThis paper presents a novel approach to the problem of almost global attitude stabiliza...
The problem of stabilization of rigid bodies has received a great deal of attention for many years. ...
The article deals with the problem of triaxial stabilization of an angular position of a rigid body....
In this work we discuss two basic alternatives of stabilizing an inverted pendulum - by ...
Abstract. This paper introduces a new class of globally asymptotically stabilizing feedback control ...
The paper deals with the global stabilization of both the attitude and the angular velocities of an ...
The paper deals with the global stabilization of both the attitude and the angular velocities of an ...
The objective of this paper is to develop a control scheme for stabilization of a hamiltonian system...
Attitude control is fundamental to the design and operation of many large engineering systems that c...
The 3D pendulum consists of a rigid body, supported at a fixed pivot, with three rotational degrees ...
Abstract — New pendulum models are introduced and stud-ied. The pendulum consists of a rigid body, s...
Abstract—New pendulum models are introduced and stud-ied. The pendulum consists of a rigid body, sup...
© 2007 Dr. Guangyu LiuThis dissertation addresses modelling, stabilization and trajectory tracking o...
International audienceWe investigate the problem of stabilising the attitude of a 3-D axially symmet...
International audienceWe investigate the problem of stabilising the attitude of an axially symmetric...
peer reviewedThis paper presents a novel approach to the problem of almost global attitude stabiliza...
The problem of stabilization of rigid bodies has received a great deal of attention for many years. ...
The article deals with the problem of triaxial stabilization of an angular position of a rigid body....
In this work we discuss two basic alternatives of stabilizing an inverted pendulum - by ...
Abstract. This paper introduces a new class of globally asymptotically stabilizing feedback control ...
The paper deals with the global stabilization of both the attitude and the angular velocities of an ...
The paper deals with the global stabilization of both the attitude and the angular velocities of an ...
The objective of this paper is to develop a control scheme for stabilization of a hamiltonian system...