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A Parametric Method Applied to Phase Recovery from a Fringe Pattern Based on a Particle Swarm Optimization

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Hybrid Artificial Intelligence Systems (HAIS 2010)

Part of the book series: Lecture Notes in Computer Science ((LNAI,volume 6076))

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Abstract

A parametric method to carry out fringe pattern demodulation by means of a particle swarm optimization is presented. The phase is approximated by the parametric estimation of an nth-grade polynomial so that no further unwrapping is required. On the other hand, a different parametric function can be chosen according to the prior knowledge of the phase behavior. A particle swarm is codified with the parameters of the function that estimates the phase. A fitness function is established to evaluate the particles, which considers: (a) the closeness between the observed fringes and the recovered fringes, (b) the phase smoothness, (c) the prior knowledge of the object as its shape and size. The swarm of particles evolves until a fitness average threshold is obtained. The method was able to successfully demodulate noisy fringe patterns and even a one-image closed-fringe pattern.

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References

  1. Martín, F., et al.: New advances in Automatic Reading of VLP’s. In: Proc. SPC 2000 (IASTED), Marbella, España, pp. 126–131 (2000)

    Google Scholar 

  2. Malacara, D., Servin, M., Malacara, Z.: Interferogram Analysis for Optical Testing. Marcel Dekker, New York (1998)

    Google Scholar 

  3. Malacara, D.: Optical Shop Testing. Wiley, New York (1992)

    Google Scholar 

  4. Creath, K.: In: Wolf, E. (ed.) Progress in Optics, vol. 26, p. 350. Elsevier, Amsterdam (1988)

    Google Scholar 

  5. Creath, K.: In: Robinson, D., Reid, G.T. (eds.) Interferogram Analysis, p. 94. IOP Publishing, London (1993)

    Google Scholar 

  6. Takeda, M., Ina, H., Kobayashi, S.: Fourier–transform method of fringe-pattern analysis for computer-based topography and interferometry. Journal of Optical Soc. of America 72, 156–160 (1981)

    Article  Google Scholar 

  7. Su, X., Chen, W.: Fourier transform profilometry: a review. Optics and Lasers in Engineering 35(5), 263–284 (2001)

    Article  MathSciNet  Google Scholar 

  8. Womack, K.H.: Interferometric phase measurement using spatial synchronous detection. Opt. Eng. 23, 391–395 (1984)

    Google Scholar 

  9. Servin, M., Rodriguez-Vera, R.: Two dimensional phase locked loop demodulation of interferograms. Journal of Modern Opt. 40, 2087–2094 (1993a)

    Article  Google Scholar 

  10. Ghiglia, D.C., Romero, L.A.: Robust two-dimensional weighted and unweighted phase unwrapping that uses fast transforms and iterative methods. J. Opt. Soc. Am. A 11, 107–117 (1994)

    Article  Google Scholar 

  11. Su, X., Xue, L.: Phase unwrapping algorithm based on fringe frequency analysis in Fourier-transform profilometry. Opt. Eng. 40, 637–643 (2001)

    Article  Google Scholar 

  12. Servin, M., Cuevas, F.J., Malacara, D., Marroquin, J.L., Rodriguez-Vera, R.: Phase unwrapping through demodulation by use of the regularized phase-tracking technique. Appl. Optics 38(10), 1934–1941 (1999)

    Article  Google Scholar 

  13. Servin, M., Marroquin, J.L., Cuevas, F.J.: Demodulation of a single interferogram by use a two-dimensional regularized phase-tracking technique. Appl. Opt. 36, 4540–4548 (1997)

    Article  Google Scholar 

  14. Villa, J., Servin, M.: Robust profilometer for the measurement of 3-D object shapes based on a regularized phase tracker. Opt. Lasers Eng. 31, 279–288 (1999)

    Article  Google Scholar 

  15. Quiroga, J.A., Gonzalez-Cano, A.: With a Regularized Phase-Tracking Technique. Applied Optics 39(17), 2931–2940 (2000)

    Article  Google Scholar 

  16. Cuevas, F.J., Servin, M., Stavroudis, O.N., Rodriguez-Vera, R.: Multi-Layer neural network applied to phase and depth recovery from fringe patterns. Opt. Comm. 181, 239–259 (2000)

    Article  Google Scholar 

  17. Cuevas, F.J., Servin, M., Rodriguez-Vera, R.: Depth object recovery using radial Basis Functions. Opt. Comm. 163, 270 (1999)

    Article  Google Scholar 

  18. Servin, M., Marroquin, J.L., Cuevas, F.J.: J. Opt. Soc. Am. A 18, 689 (2001)

    Google Scholar 

  19. Kennedy, J., Eberhart, R.C.: Particle Swarm Optimization. In: Proc. IEEE Int. Conf. on Neural Networks, Perth, pp. 1942–1948 (1995a)

    Google Scholar 

  20. Kennedy, J.: The particle swarm: social adaptation of knowledge. In: IEEE International Conference on Evolutionary Computation, April 13-16, pp. 303–308 (1997)

    Google Scholar 

  21. Kennedy, J., Spears, W.M.: Matching Algorithms to Problems: An Experimental Test of the Particle Swarm and Some Genetic Algorithms on the Multimodal Problem Generator. In: Proceedings of the IEEE Int’l Conference on Evolutionary Computation, pp. 39–43 (1998)

    Google Scholar 

  22. Hadamard, J.: Sur les problems aux derivees partielles et leur signification physique, p. 13. Princeton University Bulletin, Princeton (1902)

    Google Scholar 

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Author information

Authors and Affiliations

  1. Centro de Investigación en Computación-IPN, Unidad Profesional Adolfo-López Mateos, Av. Juan de Dios Bátiz s/n and M. Othón de Mendizábal, Zacatenco, México, DF, 07738, Mexico

    J. F. Jimenez, J. H. Sossa & L. E. Gomez

  2. Centro de Investigaciones en Óptica A.C. Loma del Bosque #115, Col. Lomas del Campestre, C.P. 37150, León Gto., México

    F. J. Cuevas

Authors
  1. J. F. Jimenez
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  2. F. J. Cuevas
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  3. J. H. Sossa
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  4. L. E. Gomez
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Editor information

Editors and Affiliations

  1. Facultad de informatica UPV/EHU, San Sebastian, Spain

    Manuel Graña Romay  & M. Teresa Garcia Sebastian  & 

  2. Universidad de Salamanca, Spain

    Emilio Corchado

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Jimenez, J.F., Cuevas, F.J., Sossa, J.H., Gomez, L.E. (2010). A Parametric Method Applied to Phase Recovery from a Fringe Pattern Based on a Particle Swarm Optimization. In: Graña Romay, M., Corchado, E., Garcia Sebastian, M.T. (eds) Hybrid Artificial Intelligence Systems. HAIS 2010. Lecture Notes in Computer Science(), vol 6076. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-13769-3_5

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  • DOI: https://doi.org/10.1007/978-3-642-13769-3_5

  • Publisher Name: Springer, Berlin, Heidelberg

  • Print ISBN: 978-3-642-13768-6

  • Online ISBN: 978-3-642-13769-3

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