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A novel tactile sensor for robot applications

Published online by Cambridge University Press:  09 March 2009

F. Eghtedari  and
C. Morgan
F. Eghtedari
Affiliation:
Department of Mechanical & Manufacturing Systems Engineering, U.W.I.S.T., King Edward VII Avenue, Cardiff CF1 3XE, Wales (UK)
C. Morgan
Affiliation:
Department of Mechanical & Manufacturing Systems Engineering, U.W.I.S.T., King Edward VII Avenue, Cardiff CF1 3XE, Wales (UK)
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Summary

This paper examines a tactile slip sensor based on photoelastic effects. Photoelastic patterns are obtained using a Dynamic Ram with a resolution of 256 by 128 pixels. Software is developed to detect changes in the stress patterns when an object moves relative to the surface of the sensor. It is suggested that the stress patterns can be used to detect slippage at the object/gripper interface.

Keywords

TactileSensorRobotApplicationsPhotoelastic effect
Type
Research Article
Information
Robotica , Volume 7 , Issue 4 , October 1989 , pp. 289 - 295
Copyright
Copyright © Cambridge University Press 1989

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References

1.Bejczy, A.K., “Sensor Systems for Automatic Grasping and Object HandlingColloques IRIA 279299 (1978).Google Scholar
2.Ueda, M. and Iwata, K., “Adaptive grasping operation for an Industrial RobotProc. of 3rd ISIR 301311 (05, 1972).Google Scholar
3.Matsuda, F., Morimoto, H. and Kitagawa, H., “Nontactile Slip Sensor Using Method of Auto Correlation with Signals of Reflecting LightProc. of 16th ISIR 591598 (09, 1986).Google Scholar
4.Masuda, R. and Hasegawa, K., “Slip Sensor for industrial Robot and its applicationsTrans. IEEJ 96–10 (1976).Google Scholar
5.Masuda, R. and Hasegawa, K., “Slip Sensor for Industrial RobotProc. of 11th SICE in Japan 3204 (1972).Google Scholar
6.Bejczy, A.K., “Sensors, Controls and Man-Machine interface for Advanced TrepelationScience 208, 13271335 (06, 1980).CrossRefGoogle Scholar
7.Tomovic, R. and Stojiljkovic, Z., “Multifunction Terminal Device with Adaptive Grasping ForceAutomatica 11, 567571 (1975).Google Scholar
8.Iwata, K. and Shimizu, T., “Weight Detection System of an Industrial Robot Using Strain Gauges and its Application to Grasping OperationTrans. IEEJ 98–10 (1978).Google Scholar
9.Heywood, R.B., Photoelasticity for Designers (Pergamon Press Oxford, 1969).Google Scholar
10.Frocht, M.M., Photoelasticity Volume 1 (John Wiley & Sons, New York, 1941).Google Scholar