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Determination of vibration amplitudes from binary phase patterns obtained by phase-shifting time-averaged speckle shearing interferometry

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  1. Osten Wolfgang, Mobile shearography system for the inspection of aircraft and automotive components, 10.1117/1.1566968
  2. Francis D, Tatam R P, Groves R M, Shearography technology and applications: a review, 10.1088/0957-0233/21/10/102001
  3. Powell Robert L., Stetson Karl A., Interferometric Vibration Analysis by Wavefront Reconstruction, 10.1364/josa.55.001593
  4. Creath Katherine, Slettemoen Gudmunn Å., Vibration-observation techniques for digital speckle-pattern interferometry, 10.1364/josaa.2.001629
  5. Vikhagen Eiolf, Vibration measurement using phase shifting TV-holography and digital image processing, 10.1016/0030-4018(89)90102-8
  6. Lokberg O J, Hogmoen K, Use of modulated reference wave in electronic speckle pattern interferometry, 10.1088/0022-3735/9/10/020
  7. Stetson Karl A., Brohinsky William R., Fringe-shifting technique for numerical analysis of time-average holograms of vibrating objects, 10.1364/josaa.5.001472
  8. Ellingsrud Svein, Rosvold Geir Ove, Analysis of a data-based TV–holography system used to measure small vibration amplitudes, 10.1364/josaa.9.000237
  9. Kumar Upputuri Paul, Kalyani Yanam, Mohan Nandigana Krishna, Kothiyal Mahendra Prasad, Time-average TV holography for vibration fringe analysis, 10.1364/ao.48.003094
  10. Statsenko T., Chatziioannou V., Moore T., Kausel W., Methods of phase reconstruction for time-averaging electronic speckle pattern interferometry, 10.1364/ao.55.001913
  11. Statsenko T., Chatziioannou V., Moore T., Kausel W., Deformation reconstruction by means of surface optimization Part I: Time-averaged electronic speckle pattern interferometry, 10.1364/ao.56.000654
  12. Deepan B., Quan C., Tay C. J., Quantitative vibration analysis using a single fringe pattern in time-average speckle interferometry, 10.1364/ao.55.005876
  13. Styk A., Brzeziński M., Vibration amplitude recovery from time averaged interferograms using the directional spatial carrier phase shifting method, 10.1117/12.889475
  14. Kumar Upputuri Paul, Mohan Nandigana Krishna, Kothiyal Mahendra Prasad, Time average vibration fringe analysis using Hilbert transformation, 10.1364/ao.49.005777
  15. Wielgus M., Patorski K., Evaluation of amplitude encoded fringe patterns using the bidimensional empirical mode decomposition and the 2D Hilbert transform generalizations, 10.1364/ao.50.005513
  16. Trusiak Maciej, Styk Adam, Patorski Krzysztof, Hilbert–Huang transform based advanced Bessel fringe generation and demodulation for full-field vibration studies of specular reflection micro-objects, 10.1016/j.optlaseng.2018.05.021
  17. Yang Lianxiang, Steinchen Wolfgang, Kupfer Gerhard, Mäckel Peter, Vössing Frank, Vibration analysis by means of digital shearography, 10.1016/s0143-8166(98)00016-5
  18. Nakadate S., Saito H., Nakajima T., Vibration Measurement Using Phase-shifting Stroboscopic Holographic Interferometry, 10.1080/713821870
  19. Borza Dan N., Full-field vibration amplitude recovery from high-resolution time-averaged speckle interferograms and digital holograms by regional inverting of the Bessel function, 10.1016/j.optlaseng.2005.07.008
  20. Borza Dan N., High-resolution time-average electronic holography for vibration measurement, 10.1016/s0143-8166(03)00016-2
  21. Borza Dan N., A new interferometric method for vibration measurement by electronic holography, 10.1007/bf02412149
  22. Vandenrijt, Imaging and Applied Optics, DTh4B.8 (2014)
  23. Languy Fabian, Vandenrijt Jean-François, Thizy Cédric, Rochet Jonathan, Loffet Christophe, Simon Daniel, Georges Marc P., Vibration mode shapes visualization in industrial environment by real-time time-averaged phase-stepped electronic speckle pattern interferometry at 10.6    μ m and shearography at 532 nm, 10.1117/1.oe.55.12.121704
  24. Creath Katherine, V Phase-Measurement Interferometry Techniques, Progress in Optics (1988) ISBN:9780444870964 p.349-393, 10.1016/s0079-6638(08)70178-1
  25. Yamaguchi Ichirou, Fundamentals and applications of speckle, 10.1117/12.516567
  26. Aebischer Hubert A., Waldner Stephan, A simple and effective method for filtering speckle-interferometric phase fringe patterns, 10.1016/s0030-4018(99)00116-9
  27. Bovik Alan Conrad, Huang Thomas S., Munson David C., The Effect of Median Filtering on Edge Estimation and Detection, 10.1109/tpami.1987.4767894
  28. Nikolova Mila, A Variational Approach to Remove Outliers and Impulse Noise, 10.1023/b:jmiv.0000011920.58935.9c
  29. Chambolle Antonin, Pock Thomas, A First-Order Primal-Dual Algorithm for Convex Problems with Applications to Imaging, 10.1007/s10851-010-0251-1
  30. Rudin Leonid I., Osher Stanley, Fatemi Emad, Nonlinear total variation based noise removal algorithms, 10.1016/0167-2789(92)90242-f
  31. Parikh, Foundations and Trends in Optimization, 1, 127 (2014)
  32. Jean-Luc Starck, Candes E.J., Donoho D.L., The curvelet transform for image denoising, 10.1109/tip.2002.1014998
  33. Bergmann Ronny, Laus Friederike, Steidl Gabriele, Weinmann Andreas, Second Order Differences of Cyclic Data and Applications in Variational Denoising, 10.1137/140969993
Bibliographic reference Kirkove, Murielle ; Guérit, Stéphanie ; Jacques, Laurent ; Loffet, Christophe ; Languy, Fabian ; et. al. Determination of vibration amplitudes from binary phase patterns obtained by phase-shifting time-averaged speckle shearing interferometry. In: Applied Optics, Vol. 57, no.27, p. 8065 (2018)
Permanent URL http://hdl.handle.net/2078.1/208806