Title :
Visually guided object grasping
Author :
Horaud, Radu ; Dornaika, Fadi ; Espiau, Bernard
Author_Institution :
INRIA, Montbonnot, France
fDate :
8/1/1998 12:00:00 AM
Abstract :
We present a visual serving approach to the problem of object grasping and more generally, to the problem of aligning an end-effector with an object. First, we extend the method proposed by Espiau et al. (1992) to the case of a camera which is not mounted onto the robot being controlled, and we stress the importance of the real-time estimation of the image Jacobian. Next, we show how to represent a grasp or more generally, an alignment between two solids in 3D projective space using an uncalibrated stereo rig. Such a 3D projective representation is view-invariant in the sense that it can be easily mapped into an image set-point without any knowledge about the camera parameters. Finally, we perform an analysis of the performances of the visual servoing algorithm and of the grasping precision that can be expected from this type of approach
Keywords :
Jacobian matrices; computer vision; image reconstruction; manipulators; position control; real-time systems; servomechanisms; stereo image processing; 3D projective reconstruction; head eye coordination; image Jacobian estimation; image set-point; manipulators; object grasping; position control; projective camera model; real-time systems; visual serving; Algorithm design and analysis; Cameras; Jacobian matrices; Orbital robotics; Performance analysis; Robot control; Robot sensing systems; Robot vision systems; Solids; Stress control;
Journal_Title :
Robotics and Automation, IEEE Transactions on
