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    Journals >Acta Photonica Sinica >Volume 51 >Issue 4 >Page 0409002 > Article
    • Acta Photonica Sinica
    • Vol. 51, Issue 4, 0409002 (2022)
    In-plane Displacement Measurement Based on Digital Holography and Digital Image Correlation
    Liangyou CHEN and Hao YAN*
    Author Affiliations
  • Department of Instrument Science and Engineering,School of Electronics,Information and Electrical Engineering,Shanghai Jiao Tong University,Shanghai 200240,China
    • show less
    DOI: 10.3788/gzxb20225104.0409002 Cite this Article
    Liangyou CHEN, Hao YAN. In-plane Displacement Measurement Based on Digital Holography and Digital Image Correlation[J]. Acta Photonica Sinica, 2022, 51(4): 0409002 Copy Citation Text show less
    References

    [1] U SCHNARS. Direct phase determination in hologram interferometry with use of digitally recorded holograms. Journal of Optical Society of America A, 11, 2011-2015(1994).

    [2] H YAN, B PAN. Three-dimensional displacement measurement based on the combination of digital holography and digital image correlation. Optics Letters, 39, 5166-5169(2014).

    [4] Y HAO, A ASUNDI. Impact of charge-coupled device size on axial measurement error in digital holographic system. Optics Letters, 38, 1194-1196(2013).

    [5] Y MORIMOTO, T MATUI, M FUJIGAKI et al. Three-dimensional displacement analysis by windowed phase-shifting digital holographic interferometry. Strain, 44, 49-56(2008).

    [6] R SCHWEDE, H BABOVSKY, A KIESSLING et al. Measurement of three-dimensional deformation vectors with digital holography and stereophotogrammetry. Optics Letters, 37, 1943-1945(2012).

    [7] R KULKARNI, P RASTOGI. Three-dimensional displacement measurement from phase signals embedded in a frame in digital holographic interferometry. Applied Optics, 54, 3393-3397(2015).

    [8] B PAN, K QIAN, H XIE et al. Two-dimensional digital image correlation for in-plane displacement and strain measurement: a review. Measurement Science and Technology, 20, 062001(2009).

    [11] Fulei JING, Changxian ZHANG, Xiying WANG. Non-contact synchronous testing technology for turbine blade strain/temperature. Aerospace Power, 35-38(2020).

    [12] T COLOMB, F MONTFORT, J KÜHN et al. Numerical parametric lens for shifting, magnification, and complete aberration compensation in digital holographic microscopy. Journal of Optical Society of America A, 23, 3177-3190(2006).

    [13] H YAN, A ASUNDI. Comparison of digital holographic microscope and confocal micro-scope methods for characterization of micro-optical diffractive components, 71550B(2008).

    [14] Q ZHENG, N MASHIWA, T FURUSHIMA. Evaluation of large plastic deformation for metals by a non-contacting technique using digital image correlation with laser speckles. Materials & Design, 191, 108626(2020).

    [15] J SONG, J YANG, F LIU et al. Quality assessment of laser speckle patterns for digital image correlation by a multi-factor fusion index. Optics and Lasers in Engineering, 124, 105822(2020).

    [16] N MASHIWA, T FURUSHIMA, K MANABE. Novel non-contact evaluation of strain distribution using digital image correlation with laser speckle pattern of low carbon steel sheet. Procedia Engineering, 184, 16-21(2017).

    [17] B PAN, K LI, W. Fast TONG. robust and accurate digital image correlation calculation without redundant computations. Experimental Mechanics, 53, 1277-1289(2013).

    [18] X ZOU, B PAN. Full-automatic seed point selection and initialization for digital image correlation robust to large rotation and deformation. Optics and Lasers in Engineering, 138, 106432(2021).

    [19] B PAN. An evaluation of convergence criteria for digital image correlation using inverse compositional Gauss-Newton algorithm. Strain, 50, 48-56(2014).

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    Liangyou CHEN, Hao YAN. In-plane Displacement Measurement Based on Digital Holography and Digital Image Correlation[J]. Acta Photonica Sinica, 2022, 51(4): 0409002
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