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Patterning automation of square mosaics using computer assisted SCARA robot

Published online by Cambridge University Press:  19 January 2009

Ali Oral
Ali Oral*
Affiliation:
Balikesir University, Engineering and Architecture Faculty, Department of Mechanical Engineering, Balikesir, Turkey
*
*Corresponding author. E-mail: alioral@balikesir.edu.tr
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Summary

Today mosaics are used as decorative elements both indoors and outdoors. Mosaics can be obtained by combining small pieces of stone, glass, wood and glazed tiles together to make some picture and illustration. Mosaic-making processes are carried out manually for thousand years. Complexities involved in piece selection, surface detection and mould fitting have limited the automation of this process. In this work, software that makes the mosaic patterning process automatic is developed. For this purpose, software named SMT V2 has been developed to obtain different mosaic patterning. The software also tested with experimental applications by selective compliance articulated robot arm (SCARA) robot on real environment using different shaped marble pieces and successful results are obtained.

Keywords

Marble mosaicMosaic tilingMosaic tiling automationMosaic patterningRobotic tiling
Type
Article
Information
Robotica , Volume 27 , Issue 6 , October 2009 , pp. 897 - 903
Copyright
Copyright © Cambridge University Press 2009

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References

1.Spagnolo, G. S., Ambrosini, D. and Paoletti, D., “An NDT electro-optic system for mosaics investigations”, J. Cultur. Heritage 4, 369376 (2003).CrossRefGoogle Scholar
2.Galli, A., Martini, M., Montanari, C. and Sibilia, E., “Thermally and optically stimulated luminescence of early medieval blue-green glass mosaics”, Radiat. Meas. 38, 799803 (2004).CrossRefGoogle Scholar
3.http://www.lifeinitaly.com/art/mosaic-technique.asp (2005), accessed at February 9, 2009.Google Scholar
4.http://www.witrazesc.com.pl/english/mozaika.html (2005), accessed at February 9, 2009.Google Scholar
5.http://www.ravennarte.it/rarte-ing/mosaico.htm (2005), accessed at February 9, 2009.Google Scholar
6.Oral, A. and Erzincanli, F., “Computer-assisted robotic tiling of mosaics”, Robotica 22, 235239 (2004).CrossRefGoogle Scholar
7.Kaya, B., Berkay, A. and Erzincanli, F., “Robot assisted tiling of glass mosaic with image processing”, Indus. Rob. 32 (5), 338392 (2005).Google Scholar
8.Inal, E. P., Automation of Mosaic Tiling with Robot (In Turkish), MsC Thesis (Balikesir University, Institute of Natural and Applied Sciences, Sep. 2006).Google Scholar
9.Das, M. T. and Dülger, L. C., “Mathematical modelling, simulation and experimental verification of a scara robot”, Simul. Model. Prac. Theory 13, 257271 (2005).CrossRefGoogle Scholar
10.Tejomurtula, S. and Kak, S., “Inverse kinematics in robotics using neural networks”, Info. Sci. 116, 147164 (1999).CrossRefGoogle Scholar
11.Koivo, A. J., Fundamentals for Control of Robotic Manipulators (John Wiley & Sons, New York, 1989).Google Scholar
12.Betworth, D. D., Henderson, M. R. and Wolfe, P. M., Computer Integrated Design and Manufacturing (Mc-Graw Hill, New York, 1999).Google Scholar
13.http://www.ravini.com/catalog/ravini.html?book=r3 (page 40), accessed at February 9, 2009.Google Scholar
14.http://www.akcamer.com/products/mosaics.htm, accessed at February 9, 2009.Google Scholar