Projective Reconstruction and Invariants from Multiple Images
IEEE Transactions on Pattern Analysis and Machine Intelligence
Geometrical Methods in Robotics
Geometrical Methods in Robotics
What can be seen in three dimensions with an uncalibrated stereo rig
ECCV '92 Proceedings of the Second European Conference on Computer Vision
Metric calibration of a stereo rig
VSR '95 Proceedings of the IEEE Workshop on Representation of Visual Scenes
Rigid and Articulated Motion Seen with an Uncalibrated Stereo Rig
ICCV '99 Proceedings of the International Conference on Computer Vision-Volume 2 - Volume 2
| Hi-index | 0.00 |
In this paper, we propose a method using stereo vision for visually guiding and controlling a robot in projective three-space. Our formulation is entirely projective. Metric models are not required and are replaced with projective models of both the stereo geometry and the robot's "projective kinematics". Such models are preferable since they can be identified from the vision data without any a-priori knowledge. More precisely, we present constraints on projective space that reflect the visibility and mobility underlying a given task. Using interaction matrix that relates articulation space to projective space, we decompose the task into three elementary components: a translation and two rotations. This allows us to define trajectories that are both visually and globally feasible, i.e. problems like self-occlusion, local minima, and divergent control no longer exist. In this paper, we will not adopt a straight-foward image-based trajectory tracking. Instead, a directly computed control that combines a feed-forward steering loop with a feed-back control loop, based on the Cartesian error of each of the task's components.