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Digital holographic cameras and data processing for remote monitoring and measurements of mechanical parts

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Konferencja
Fifth Symposjum on Image Processing Technology (TPO 2006) ; (5 ; 21-23.11.2006 ; Serock, Poland)
Języki publikacji
EN
Abstrakty
EN
Fast growing technology and requirements for testing of different types of materials and devices require new methods and systems for investigation of their parameters. Among the quantities of high interest are shape, deformation, roughness, local materials constants, displacement, and strain fields of elements under load. In the paper, we present novel solutions for digital holographic cameras, which allow for remote monitoring and measurement of the above mentioned quantities at small mechanical objects or at restricted areas of interest at big structures. The systems have compact design, "black box" measurement approach, and allows for fast and accurate measurements performed directly at the element and often in outdoor environment. The principles of digital and optoelectronic reconstruction and phase manipulation are described together with the exemplary measurement results obtained by means of the cameras presented.
Twórcy
Bibliografia
  • 1. Digital Holography and Three Dimensional Display, Principles, and Applications, edited by T.C. Poon, Springer, 2006.
  • 2. T. Kreis, Holographic Interferometry, Akademie Verlag, Berlin, 1996.
  • 3. A. Michałkiewicz, M. Kujawińska, J. Krezel, L. Salbut, X. Wang, and P.J. Bos, "Phase manipulation and optoelectronic reconstruction of digital holograms by means of LCOS spatial light modulator", Proc. SPIE 5776, 144-152 (2005).
  • 4. T. Baumbach, W. Osten, C. von Kopylow, and W. Juptner, "Application of comparative digital holography for distant shape control", Proc. SPIE 5457, 598-609 (2004).
  • 5. C.M. Vest, Holographic Interferometry, John Wiley & Sons, New York, 1979.
  • 6. K. Creath, "Phase-shifting holographic interferometry", in Holographic Interferometry, Vol. 68, pp. 109-150, edited by P.K. Rastogi, Springer Series in Optical Sciences, 1994.
  • 7. A. Michałkiewicz, M. Kujawińska, R. Lymarenko, O. Budnyk, X. Wang, and P.J. Bos, "Simulation, registration and reconstruction of digital holograms of arbitrary objects by means of liquid crystal on silicon spatial light modulator", Proc. SPIE 5947, 131-139 (2005).
  • 8. I. Yamaguchi, S. Ohta, and J. Kato, "Surface contouring by phase-shifting digital holography", Opt. Lasers Eng. 36, 417-428 (2001)1.
  • 9. P. Ferraro, L. Miccio , S. Grilli, M. Paturzo, S. De Nicola, A. Finizio, R. Osellame, and P. Laporta, "Quantitative phase microscopy of microstructures with extended measurement range and correction of chromatic aberrations by multiwavelength digital holography", Opt. Express 15, 14591-14600 (2007).
  • 10. Y. Emery, E. Cuche, F. Marquet, N. Aspert, P. Marquet, J. Kühn, M. Botkine, T. Colomb, F. Montfort, F. Charri'ere, C. Depeursinge, P. Debergh, and R. Conde, "Digital holographic microscopy (DHM) for metrology and dynamic characterization of MEMS and MOEMS", Proc. SPIE 6186, N1860-N1860 (2006).
  • 11. W. Osten, E. Kolenovic, R. Kalttenhoff, and N. Kopp, "An optimal interferometer for 3D digital endoscopy", Proc. SPIE 5144, 159-161 (2003).
  • 12. T.A. Saucedo, F.M. Santoyo, M. De la Torre Ibarra, G. Pedrini, and W. Osten, "Simultaneous two-dimensional endoscopic pulsed digital holography for evaluation of dynamic displacements", Appl. Optics 45, 4534-4539 (2006).
  • 13. C. Kohler, X. Schwab, and W. Osten, "Optimally tuned spatial light modulators for digital holography", Appl. Optics 45, 960-967 (2006).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWA9-0021-0011
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