References
- Dainty JC. Laser Speckles and Related Phenomena, 1984 (Springer-Verlag, Berlin).
- Yamaguchi I. Speckle displacement and decorrelation in the diffraction and image fields for small object deformation. J. Mod. Opt., 1981, 28, 1359–1376.
- Ángel L, Tebaldi M, Bolognini N. Multiple-aperture speckle method applied to local displacement measurements. Opt. Commun., 2007, 274, 23–31.
- Majles Ara MH, Sirohi RS. Speckle interferometry methods for displacement and strain measurement using photorefractive crystal. Optik, 2007, 118, 445–451.
- González-Peña R, Cibrián Ortiz de Anda RM, Pino-Velázquez AJ, Soler-de la Cruz J, Llanes Burón C, Salvador Palmer R, Buendía Gómez M. Displacements measurement in a building model using the speckle photography technique. Eng. Struct., 2005, 27, 1859–1864.
- Meng LB, Jin GC, Yao XF, Yeh HY. 3D full-field deformation monitoring of fiber composite pressure vessel using 3D digital speckle correlation method. Polym. Test., 2006, 25, 42–48.
- Mishra D, Muralidhar K, Munshi P. Performance evaluation of fringe thinning algorithms for interferometric tomography. Opt. Lasers Eng., 1998, 30, 229–249.
- Robinson DW. Automatic fringe analysis with a computer image-processing system. Appl. Opt., 1983, 22, 2169–2176.
- Krishnaswamy S. Algorithm for computer tracing of interference fringes. Appl. Opt., 1981, 30, 1624–1628.
- Ramesh K, Singh RK. Comparitive performance evaluation of various fringe thinning algorithms in photomechanics. J. Electron. Imag., 1995, 4, 71–83.
- Serra J. Image Analysis and Mathematical Morphology, 1982 (Academic Press, London).
- Serra J. Image Analysis and Mathematical Morphology, 1988, Vol. 2 (Academic Press, London).
- Gonzales RC, Woods RE, Eddins SL. Digital Image Processing Using MATLAB, 2004 (Prentice Hall, Englewood Cliffs, NJ).