9.5.3 Optical Interferometry, Moire Patterns

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Optical Interferometry. Moire Patterns.

Srinivasan, V., Lumia, R.,
A Pseudo-Interferometric Laser Range Finder for Robot Applications,
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Nurre, J.H., and Hall, E.L.,
Encoded Moire Inspection Based on a Computer Solid Model,
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Nurre, J.H., and Hall, E.L.,
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IEEE DOI Investigate the pinhole geometry for placement of cameras and projecting a Moire pattern. BibRef 9105

Hull-Allen, C.G.[C. Gregory],
Video contour measurement system employing moire interferometry having a beat frequency pattern,
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Harding, K.G.[Kevin G.],
Moire interferometry system and method with extended imaging depth,
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Yoshimori, K.[Kyu],
Interferometric spectral imaging for three-dimensional objects illuminated by a natural light source,
JOSA-A(18), No. 4, April 2001, pp. 765-770. 0105
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Kulawiec, A.W.[Andrew W.], Lindquist, D.[Dag], Platten, J.E.[James E.], Dewa, P.G.[Paul G.],
Moire Interfermoter with overlapping illumination and imaging systems,
US_Patent6,456,384, Sep 24, 2002
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Thiebaut, E., Giovannelli, J.F.,
Image reconstruction in optical interferometry,
SPMag(27), No. 1, January 2010, pp. 97-109.
IEEE DOI 1002
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Lacot, E.[Eric], Jacquin, O.[Olivier], Roussely, G.[Grégoire], Hugon, O.[Olivier], de Chatellus, H.G.[Hugues Guillet],
Comparative study of autodyne and heterodyne laser interferometry for imaging,
JOSA-A(27), No. 11, November 2010, pp. 2450-2458.
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Lacot, E.[Eric], Glastre, W.[Wilfried], Jacquin, O.[Olivier], Hugon, O.[Olivier], de Chatellus, H.G.[Hugues Guillet],
Optimization of an autodyne laser interferometer for high-speed confocal imaging,
JOSA-A(30), No. 1, January 2013, pp. 60-70.
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Duan, X.J.[Xiao-Jie], Duan, F.J.[Fa-Jie], Lv, C.R.[Chang-Rong],
Three-dimensional shape reconstruction system based on fiber-optic interference fringe imaging,
IJIST(22), No. 4, December 2012, pp. 208-213.
DOI Link 1211
BibRef

Thiébaut, É.[Éric], Soulez, F.[Ferréol], Denis, L.[Loïc],
Exploiting spatial sparsity for multiwavelength imaging in optical interferometry,
JOSA-A(30), No. 2, February 2013, pp. 160-170.
WWW Link. 1211
BibRef

Falldorf, C.[Claas], Bergmann, R.B.[Ralf B.],
Computational shear interferometry for digital holography,
SPIE(Newsroom), August 23, 2013.
DOI Link 1310
A novel approach uses advanced computational methods to record wave fields. BibRef

Ekberg, P.[Peter], Su, R.[Rong], Chang, E.W.[Ernest W.], Yun, S.H.[Seok Hyun], Mattsson, L.[Lars],
Fast and accurate metrology of multi-layered ceramic materials by an automated boundary detection algorithm developed for optical coherence tomography data,
JOSA-A(31), No. 2, February 2014, pp. 217-226.
DOI Link 1403
Image processing BibRef

Su, R.[Rong], Ekberg, P.[Peter], Leitner, M.[Michael], Mattsson, L.[Lars],
Accurate and automated image segmentation of 3D optical coherence tomography data suffering from low signal-to-noise levels,
JOSA-A(31), No. 12, December 2014, pp. 2551-2560.
DOI Link 1412
Three-dimensional image processing BibRef

Schutz, A.[Antony], Ferrari, A.[Andre], Mary, D.[David], Soulez, F.[Ferreol], Thiebaut, E.[Eric], Vannier, M.[Martin],
PAINTER: A spatiospectral image reconstruction algorithm for optical interferometry,
JOSA-A(31), No. 11, November 2014, pp. 2334-2345.
DOI Link 1411
Interferometric imaging ; Multispectral and hyperspectral imaging BibRef

Song, Y.[Yang], Wang, J.[Jia], Jin, Y.[Ying], Guo, Z.[Zhenyan], Ji, Y.[Yunjing], He, A.[Anzhi], Li, Z.H.[Zhen-Hua],
Implementation of multidirectional moire computerized tomography: multidirectional affine calibration,
JOSA-A(33), No. 12, December 2016, pp. 2385-2395.
DOI Link 1612
Tomography BibRef

Singh, M.[Mandeep], Khare, K.[Kedar],
Single-shot interferogram analysis for accurate reconstruction of step phase objects,
JOSA-A(34), No. 3, March 2017, pp. 349-355.
DOI Link 1703
Fringe analysis BibRef

Thiebaut, E.[Eric], Young, J.[John],
Principles of image reconstruction in optical interferometry: tutorial,
JOSA-A(34), No. 6, June 2017, pp. 904-923.
DOI Link 1706
Survey, Optical Interferometry. Image reconstruction-restoration, Inverse problems, Interferometric, imaging BibRef


Kadambi, A., Schiel, J., Raskar, R.,
Macroscopic Interferometry: Rethinking Depth Estimation with Frequency-Domain Time-of-Flight,
CVPR16(893-902)
IEEE DOI 1612
BibRef

Nikonorov, A.[Artem], Petrov, M.[Maksim], Bibikov, S.[Sergey], Yuzifovich, Y.[Yuriy], Yakimov, P., Kazanskiy, N., Skidanov, R.[Roman], Fursov, V.[Vladimir],
Comparative evaluation of deblurring techniques for Fresnel lens computational imaging,
ICPR16(775-780)
IEEE DOI 1705
Deconvolution, Distortion, Image color analysis, Image reconstruction, Lenses, Optical distortion, Optical filters, PSF estimation, computational photography, deconvolution, diffractive optics, sharpening BibRef

Nikonorov, A.[Artem], Skidanov, R.[Roman], Fursov, V.[Vladimir], Petrov, M.[Maksim], Bibikov, S.[Sergey], Yuzifovich, Y.[Yuriy],
Fresnel lens imaging with post-capture image processing,
CCD15(33-41)
IEEE DOI 1510
Fresnel Lens. Deconvolution BibRef

Tsai, P.H.[Pei-Hen], Chuang, Y.Y.[Yung-Yu],
Target-Driven Moire Pattern Synthesis by Phase Modulation,
ICCV13(1912-1919)
IEEE DOI 1403
fundamental moire theorem BibRef

Cong, P.Y.[Peng-Yu], Xiong, Z.W.[Zhi-Wei], Zhang, Y.[Yueyi], Zhao, S.H.[Sheng-Hui], Wu, F.[Feng],
Dense single-shot 3D scanning via stereoscopic fringe analysis,
ICIP13(3627-3631)
IEEE DOI 1402
3D scanning BibRef

Babaei, A., Saadatseresht, M.,
Effect of Digital Fringe Projection Parameters on 3D Reconstruction Accuracy,
SMPR13(73-77).
HTML Version. 1311
BibRef

Schroeder, P., Roux, R., Favreau, J.M., Perriollat, M., Bartoli, A.E.,
Industrial Phase-Shifting Profilometry in Motion,
SCIA13(579-590).
Springer DOI 1311
Phase-Shift Profilometry provides a means for dense high-quality surface scanning. BibRef

Kimura, D.[Daichi], Hata, S.[Sheiji], Hayashi, J.I.[Jun-Ichiro], Iwamoto, M.[Masakatsu], Morimoto, S.[Shigeaki], Kobayashi, H.[Hiroaki],
Nano-level 3-D shape measurement system using 3-wavelength LED light interference fringes,
FCV11(1-6).
IEEE DOI 1102
BibRef

Duan, F.J.[Fa-Jie], Zhang, C.[Cong], Zhang, C.[Chao], Xiao, H.[Hai],
Fourier Transform Profilometry Based on Fiber-Optic Interferometric Projection,
CISP09(1-5).
IEEE DOI 0910
BibRef

Falldorf, C., von Kopylow, C.[Christoph], Juptner, W.,
Compact Lateral Shearing Interferometer to Determine Continuous Wave Fronts,
3DTV07(1-4).
IEEE DOI 0705
Direct acquisition of holographic data for 3-D. BibRef

Naganuma, S., Tagawa, N., Minagawa, A., Moriya, T.,
Simultaneous determination of object shape and color by Moire analysis using a reflection model,
ICPR04(III: 202-205).
IEEE DOI 0409
BibRef

Inagaki, A., Tagawa, N., Minagawa, A., Moriya, T.,
Computation of Shape and Reflectance of 3-d Object Using Moire Phase and Reflection Model,
ICIP01(II: 177-180).
IEEE DOI 0108
BibRef

Bååth, L.B.[Lars B.],
To See What You Cannot See,
SCIA03(108).
Springer DOI 0310
Imaging with complex data from micro-wave, mm-wave, and optical interferometers. BibRef

Ryoo, S.M.,
Extended Depth from Focus Using White Light Interferometer,
ICIP00(Vol I: 761-763).
IEEE DOI 0008
BibRef

Lu, C.W.[Cun-Wei], Inokuchi, S.[Seiji],
An Absolute Depth Range Measurement of 3-d Objects Based on Modulation Moiré Topography,
ICPR00(Vol I: 754-757).
IEEE DOI 0009
BibRef

Yamaguchi, A.[Akashi], Lu, C.W.[Cun-Wei], Inokuchi, S.[Seiji],
Intensity Modulated Moire and its Intensity-Phase Analysis,
ICPR98(Vol II: 1791-1793).
IEEE DOI 9808
BibRef

Pochec, P.,
Moire based stereo matching technique,
ICIP95(II: 370-373).
IEEE DOI 9510
BibRef

Chapter on 3-D Shape from X -- Shading, Textures, Lasers, Structured Light, Focus, Line Drawings continues in
Other Patterns .


Last update:Sep 25, 2017 at 16:36:46