9.5.3 Optical Interferometry, Moire Patterns

Chapter Contents (Back)
Optical Interferometry. Moire Patterns.
See also Demoireing, Demoiréing, Moire Removal.

Tamches, I.,
The theory and application of electronic moiré patterns,
PR(2), No. 1, January 1970, pp. 53-54.
Elsevier DOI 0309
Simple way to optically detect repetitive signals buried in noise. BibRef

Srinivasan, V., Lumia, R.,
A Pseudo-Interferometric Laser Range Finder for Robot Applications,
RA(5), 1989, pp. 98-105. BibRef 8900

Nurre, J.H., and Hall, E.L.,
Encoded Moire Inspection Based on a Computer Solid Model,
PAMI(14), No. 12, December 1992, pp. 1214-1218.
IEEE DOI Generate a Moire pattern to get depth. BibRef 9212

Nurre, J.H., and Hall, E.L.,
Positioning Quadric Surfaces in an Active Stereo Imaging System,
PAMI(13), No. 5, May 1991, pp. 491-495.
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,
US_Patent5,436,462, Jul 25, 1995
WWW Link. BibRef 9507

Harding, K.G.[Kevin G.],
Moire interferometry system and method with extended imaging depth,
US_Patent5,835,218, Nov 10, 1998
WWW Link. BibRef 9811

Liu, X., Ehrich, R.,
Analysis of Moire Patterns in Non-Uniformly Sampled Halftones,
IVC(18), No. 10, July 2000, pp. 843-848.
Elsevier DOI 0005
BibRef
Earlier: WACV96(208-213).
IEEE DOI 9609
BibRef

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
BibRef

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
WWW Link. BibRef 0209

Thiebaut, E., Giovannelli, J.F.,
Image reconstruction in optical interferometry,
SPMag(27), No. 1, January 2010, pp. 97-109.
IEEE DOI 1002
BibRef

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.
WWW Link. 1011
BibRef

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.
WWW Link. 1211
BibRef

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.Y.[Zhen-Yan], Ji, Y.J.[Yun-Jing], 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

Nolvi, A.[Anton], Kassamakov, I.[Ivan], Haeggstrom, E.[Edward],
Subsurface metrology using scanning white light interferometry: absolute z coordinates deep inside displays,
JOSA-A(35), No. 1, January 2018, pp. A18-A22.
DOI Link 1801
Instrumentation, measurement, and metrology, Interferometry, Interferometric imaging BibRef

Machineni, R.C.[Rakesh Chowdary], Spoorthi, G.E., Vengala, K.S.[Krishna Sumanth], Gorthi, S.[Subrahmanyam], Gorthi, R.K.S.S.[Rama Krishna Sai S.],
End-to-end deep learning-based fringe projection framework for 3D profiling of objects,
CVIU(199), 2020, pp. 103023.
Elsevier DOI 2009
Fringe projection. 3D reconstruction, Deep learning, Fringe projection, Active stereo, Phase unwrapping BibRef

Mangalore, A.R., Seelamantula, C.S., Thakur, C.S.,
Neuromorphic Fringe Projection Profilometry,
SPLetters(27), 2020, pp. 1510-1514.
IEEE DOI 2009
Cameras, Neuromorphics, Voltage control, Image sensors, Vision sensors, dynamic vision sensor (DVS) BibRef

Guo, Y.Q.[Yan-Qing], Ji, C.J.[Cai-Juan], Zheng, X.[Xin], Wang, Q.Y.[Qian-Yu], Luo, X.Y.[Xiang-Yang],
Multi-scale Multi-attention Network for Moiré Document Image Binarization,
SP:IC(90), 2021, pp. 116046.
Elsevier DOI 2012
Moiré patterns, Document Image Binarization, Multi-scale Multi-attention Network BibRef

Yang, C.[Cong], Yang, Z.Y.[Zhen-Yu], Ke, Y.[Yan], Chen, T.[Tao], Grzegorzek, M.[Marcin], See, J.[John],
Doing More With Moiré Pattern Detection in Digital Photos,
IP(32), 2023, pp. 694-708.
IEEE DOI 2301
Training, Task analysis, Neural networks, Image restoration, Shape, Reflection, Image edge detection, Moire pattern, adaptive kernel BibRef


Zhang, Y.[Yu], Lau, D.[Daniel], Wipf, D.[David],
Sparse Multi-Path Corrections in Fringe Projection Profilometry,
CVPR21(13339-13348)
IEEE DOI 2111
Linear systems, Surface reconstruction, Lighting, Cameras, Mathematical models, Pattern recognition BibRef

Sagawa, R.[Ryusuke], Higuchi, Y.[Yusuke], Kawasaki, H.[Hiroshi], Furukawa, R.[Ryo], Ito, T.[Takahiro],
Dense Pixel-wise Micro-motion Estimation of Object Surface by Using Low Dimensional Embedding of Laser Speckle Pattern,
ACCV20(II:700-715).
Springer DOI 2103
BibRef

He, B., Wang, C., Shi, B., Duan, L.,
Mop Moiré Patterns Using MopNet,
ICCV19(2424-2432)
IEEE DOI 2004
cameras, feature extraction, image classification, image colour analysis, neural nets, MopNet, Degradation BibRef

Banks, S., Green, R., Junghyun, J.,
Use of Moiré Patterns in Camera Position Estimation,
IVCNZ19(1-7)
IEEE DOI 2004
approximation theory, cameras, moire fringes, motion estimation, pose estimation, close-range testing, modelling 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).
DOI Link 1311
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
Demoireing, Demoiréing, Moire Removal .


Last update:Mar 16, 2024 at 20:36:19