An algorithm for optimal closed-path generation over arbitrary surfaces using uncalibrated vision

This paper presents aspects related to the generation and tracking of closed trajectories over an arbitrary surface of unknown geometry. Such a capacity is required in some of the most important industrial robotic tasks, like the cutting or welding of commercial plates. Previous work has shown how a calibration-free, vision-based method can be combined with an optimal geodesic-mapping approach, in order to generate an optimal trajectory that traces a previously defined path, stored as a CAD model, over an arbitrary, curved surface. The application of this technique in the case of nondevelopable surfaces did not achieve closure when a closedtrajectory was attempted. This paper presents a methodology for successfully achieving closure of a given closed-path, when this is traced over a non-developable surface. The proposed technique was tested using an industrial robot and a visionbased system that included structured lighting for imageanalysis simplification. The results of these experiments are reported herein. © 2007 IEEE.

Camera-space manipulation; Optimal mapping; Vision Algorithms; Cameras; Computer aided design; Image analysis; Industrial robots; Robotics; Arbitrary surfaces; Camera space manipulation; Closed path generation; Optimal mappings; Vision based methods; Stereo vision

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