In this paper, we present a new approach to visual servoing using lines. It is based on a theoretical and geometrical study of the main line representations, which allows us to define a new representation, the so-called binormalized Plücker coordinates. These are particu-larly well suited for visual servoing. Indeed, they allow the definition of an image line alignment concept. Moreover, the control law which realizes such an alignment has several properties: partial decoupling between rotation and translation, analytical inversion of the motion equations and global asymptotic stability conditions. This control law was validated both in simulation and experimentally in the spe-cific case of an orthogonal trihedron. KEY WORDS—visual servoing...
In this paper we propose a new method for visual servoing of an autonomous robot manipulator based o...
We present a purely rotational visual servoing algorithm, which aligns the orientation between two c...
We present a purely rotational visual servoing algorithm which aligns the orientation between two ca...
In this paper, we present a new approach to visual servoing using lines. It is based on a theoretica...
In this work, we present a fundamentally new approach to visual servoing using lines. It is based on...
International audienceIn this paper we present a new approach to control the 6 degrees of freedom of...
International audienceIn this paper we consider the problem of controlling the six degrees of freedo...
Abstract — Visual servoing schemes generally employ various image features (points, lines, moments e...
Using lines in visual servoing yields, contrarily to the case of points, a representation choice. We...
International audienceThis paper deals with visual servoing from three points. Using the geometric p...
Abstract Plucker Coordinates are largely used in kinematics. What is perhaps much less known is the ...
International audienceIn this paper we consider the problem of controlling a robotic system using th...
International audienceThe general aim of visual servoing is to control the motion of a robot so that...
The general aim of visual servoing is to control the motion of a robot so that visual features acqui...
In this paper we propose a new method for visual servoing of an autonomous robot manipulator based o...
We present a purely rotational visual servoing algorithm, which aligns the orientation between two c...
We present a purely rotational visual servoing algorithm which aligns the orientation between two ca...
In this paper, we present a new approach to visual servoing using lines. It is based on a theoretica...
In this work, we present a fundamentally new approach to visual servoing using lines. It is based on...
International audienceIn this paper we present a new approach to control the 6 degrees of freedom of...
International audienceIn this paper we consider the problem of controlling the six degrees of freedo...
Abstract — Visual servoing schemes generally employ various image features (points, lines, moments e...
Using lines in visual servoing yields, contrarily to the case of points, a representation choice. We...
International audienceThis paper deals with visual servoing from three points. Using the geometric p...
Abstract Plucker Coordinates are largely used in kinematics. What is perhaps much less known is the ...
International audienceIn this paper we consider the problem of controlling a robotic system using th...
International audienceThe general aim of visual servoing is to control the motion of a robot so that...
The general aim of visual servoing is to control the motion of a robot so that visual features acqui...
In this paper we propose a new method for visual servoing of an autonomous robot manipulator based o...
We present a purely rotational visual servoing algorithm, which aligns the orientation between two c...
We present a purely rotational visual servoing algorithm which aligns the orientation between two ca...