Stereo Driving and Position Estimation for Autonomous Planetary Rovers

In this paper we present two new approaches to planetary rover perception. One approach concerns stereo driving without 3-D reconstruction. This approach begins with weakly calibrated stereo images, and evaluates the traversability of terrain using shape indicators such as relative slope and relative elevation. The approach then evaluates candidate paths based on the traversability analysis and generates the best path. The second approach involves estimating vehicle position by observing the Sun. At a given time, a measurement of the Sun's altitude constrains the observer to lie on a circle on the terrestrial surface called the circle of equal altitude. We determine the position of the observer by intersecting circles of equal altitude identified at different times. We are validating experimentally both approaches in unstructured, outdoor environments with several wheeled rovers, Future efforts will transfer the developed technology into Lunar Rover demonstration and flight programs.

[1]  Olivier D. Faugeras,et al.  Relative 3D positioning and 3D convex hull computation from a weakly calibrated stereo pair , 1995, Image Vis. Comput..

[2]  J. K. Rosenblatt,et al.  A fine-grained alternative to the subsumption architecture for mobile robot control , 1989, International 1989 Joint Conference on Neural Networks.

[3]  Bill Ross,et al.  A practical stereo vision system , 1993, Proceedings of IEEE Conference on Computer Vision and Pattern Recognition.

[4]  Luc Robert,et al.  Camera calibration without feature extraction , 1994, Proceedings of 12th International Conference on Pattern Recognition.

[5]  S. P. Mudur,et al.  Three-dimensional computer vision: a geometric viewpoint , 1993 .

[6]  Regis Hoffman,et al.  Terrain mapping for a walking planetary rover , 1994, IEEE Trans. Robotics Autom..

[7]  Olivier D. Faugeras,et al.  What can be seen in three dimensions with an uncalibrated stereo rig , 1992, ECCV.

[8]  Martial Hebert,et al.  Deriving Orientation Cues from Stereo Images , 1994, ECCV.

[9]  Rachid Deriche,et al.  A Robust Technique for Matching two Uncalibrated Images Through the Recovery of the Unknown Epipolar Geometry , 1995, Artif. Intell..