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A curvilinear snake arm robot with gripper-axis fibre-optic image processor feedback

Published online by Cambridge University Press:  09 March 2009

W. K. Taylor
Affiliation:
Department of Electronic and Electrical Engineering, University College London, London (U.K.)
D. Lavie
Affiliation:
Department of Electronic and Electrical Engineering, University College London, London (U.K.)
I. I. Esat
Affiliation:
Department of Electronic and Electrical Engineering, University College London, London (U.K.)

Summary

A curvilinear robot constructed from a number of modular flexible sections of fixed length and diameter but independently controlled radius and direction of curvature has been equipped with an optical fibre image guide transmitting images from between the gripper jaws to the remote TV camera of Microvision-100, a microcomputer controlled real-time DMA-based vision System that is easily trained to recognise the shape, position and orientation of components. The gripper position and orientation is controlled by feedback from the vision System, the action taken depending on component recognition and inspection for defects. Redundant degrees of freedom enable the curvilinear robot to avoid obstacles and work in confined spaces.

Type
Article
Copyright
Copyright © Cambridge University Press 1983

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References

1.Makhlin, A.G. “Robot Control and Inspection by Multiple Camera Vision System” Proc. 11th ISIR, Tokyo 121136 (10 1981).Google Scholar
2.Taylor, W.K. and Ero, G.Real Time Teaching and Recognition System for Robot VisionThe Industrial Robot 7, No. 2, 99106 (06, 1980).Google Scholar
3.Renaud, M., “Geometric and Kinematic Models of a Robot Manipulator” Proc. 11th ISIR, Tokyo 757763 (10, 1981).Google Scholar