Title :
Visual guidance for robot motion
Author :
Blake, A. ; Cipolla, R. ; Curwen, R. ; Xie, Z. ; Zisserman, A.
Author_Institution :
Dept. of Eng. Sci., Oxford Univ., UK
Abstract :
Summary form only given. This paper proposes an approach to path-planning around smooth obstacles that exploits visually derived geometry. A moving robot can scan the silhouette or apparent contour of an obstacle and estimate a minimum length path. This is done by seeking geodesics which can be extrapolated smoothly, around the obstacle and towards the goal. Preliminary implementation of this idea uses a real-time visual contour tracker running in real-time, with a camera mounted on an Adept robot arm. The camera first `dithers´ to generate visual motion, a safe path is estimated, and the robot steers the camera around the obstacle with a clearance of a few millimetres. The practical path-planning system uses a CCD camera with computer-controlled zoom, focus and aperture, mounted on the wrist joint of a 5-axis Adept 1 SCARA arm. Vision hardware is based around a SUN4/260 with datacube system and transputer parallel processing hardware
Keywords :
computer vision; differential geometry; minimisation; parallel processing; position control; robots; 5-axis Adept 1 SCARA arm; CCD camera; SUN4/260; aperture control; computer-controlled zoom; datacube system; extrapolation; focus control; geodesics; minimum length path; path-planning; real-time visual contour tracker; robot motion; transputer parallel processing hardware; visually derived geometry;
Conference_Titel :
Active and Passive Techniques for 3-D Vision, IEE Colloquium on
Conference_Location :
London
