11.3.10 Reconstructions, Applied to Stereo Imagery, Stereo Data

Maitre, H., and Luo, W.,
Using Models to Improve Stereo Reconstruction,
PAMI(14), No. 2, February 1992, pp. 269-277.
IEEE DOI BibRef 9202
Earlier: A1, A2:
Using Surface Model to Correct and Fit Disparity Data in Stereo Vision,
ICPR90(I: 60-64).
IEEE DOI Using a 3-D model (i.e. a building) improves the reconstruction from stereo disparities. BibRef

Shao, M.[Min], Chellappa, R.[Rama], Simchony, T.[Tal],
Reconstructing a 3-D Depth Map from One or More Images,
CVGIP(53), No. 2, March 1991, pp. 219-226.
Elsevier DOI BibRef 9103
Earlier:
New Algorithms for Reconstruction of a 3-D Depth Map from One or More Images,
CVPR88(530-535).
IEEE DOI Combine sparse depth and orientation to get a surface.
See also Direct Analytical Methods for Solving Poisson Equations in Computer Vision Problems. BibRef

Eastman, R.D.[Roger D.], Waxman, A.M.[Allen M.],
Using Disparity Functionals for Stereo Correspondence and Surface Reconstruction,
CVGIP( 39), No. 1, July 1987, pp. 73-101.
Elsevier DOI BibRef 8707
Earlier:
Disparity Functionals and Stereo Vision,
DARPA85(245-254). Given that the surface has an analytic model, find it. Nice if you can make that assumption. BibRef

Kontsevich, L.L.,
Pairwise Comparison Technique: A Simple Solution for Depth Reconstruction,
JOSA-A(10), No. 6, June 1993, pp. 1129-1135. Extend the Huang-Lee algorithm (
See also Finding Point Correspondences and Determining Motion of a Rigid Object from Two Weak Perspective Views. ) for a camera model with uniform scaling (weak perspective). BibRef 9306

Chena, L.H.[Liang-Hua], Lin, W.C.[Wei-Chung],
Visual Surface Segmentation from Stereo,
IVC(15), No. 2, February 1997, pp. 95-106.
Elsevier DOI 9702
BibRef
Earlier:
Surface segmentation from stereo,
CVPR92(493-498).
IEEE DOI 0403
BibRef

Tate, K., Li, Z.N.,
Depth Map Construction from Range-Guided Multiresolution Stereo Matching,
SMC(24), 1994, pp. 134-144. BibRef 9400

Kimmel, R.[Ron],
3D Shape Reconstruction from Autostereograms and Stereo,
JVCIR(13), No. 1/2, March/June 2002, pp. 324-333.
DOI Link 0204
BibRef

Takizawa, H.[Hotaka], Yamamoto, S.[Shinji],
Construction Method of Three-Dimensional Deformable Template Models for Tree-Shaped Organs,
IEICE(E89-D), No. 1, January 2006, pp. 326-331.
DOI Link 0601
BibRef

Takizawa, H.[Hotaka], Yamamoto, S.[Shinji],
Surface Reconstruction from Stereo Data Using a Three-Dimensional Markov Random Field Model,
IEICE(E89-D), No. 7, July 2006, pp. 2028-2035.
DOI Link 0607
BibRef
Earlier:
Surface Reconstruction from Stereovision Data Using a 3-D MRF of Discrete Object Models,
ICPR06(I: 27-30).
IEEE DOI 0609
BibRef

Alvarez, L.[Luis], Cuenca, C.[Carmelo], Salgado, A.[Agustín], Sanchez, J.[Javier],
A Variational Approach to 3D Cylindrical Geometry Reconstruction from Multiple Views,
ELCVIA(6), No. 2, September 2007, pp. 54-66.
DOI Link 0804

See also new energy-based method for 3D motion estimation of incompressible PIV flows, A. BibRef

Salgado, A., Sánchez, J.,
3D Geometry Reconstruction from a Stereoscopic Video Sequence,
ICIAR05(609-616).
Springer DOI 0509
BibRef

Álvarez-León, L.[Luis], Cuenca, C.[Carmelo], Sánchez, J.[Javier],
Regularizing a Set of Unstructured 3D Points from a Sequence of Stereo Images,
ScaleSpace03(449-463).
Springer DOI 0310
BibRef

Kumar, S.[Sanjeev], Kumar, M.[Manoj], Raman, B.[Balasubramanian], Sukavanam, N.[Nagarajan], Bhargava, R.[Rama],
Depth Recovery of Complex Surfaces from Texture-less Pair of Stereo Images,
ELCVIA(8), No. 1, July 2009, pp. xx-yy.
DOI Link 0909
BibRef

Banno, A.[Atsuhiko], Ikeuchi, K.[Katsushi],
Disparity map refinement and 3D surface smoothing via Directed Anisotropic Diffusion,
CVIU(115), No. 5, May 2011, pp. 611-619.
Elsevier DOI 1103
BibRef
Earlier: 3DIM09(1870-1877).
IEEE DOI 0910
Binocular stereo; Directed anisotropic diffusion; 3D reconstruction; Surface smoothing BibRef

Yokozuka, M., Tomita, K., Matsumoto, O., Banno, A.,
Accurate depth-map refinement by per-pixel plane fitting for stereo vision,
ICPR16(2807-2812)
IEEE DOI 1705
Cameras, Convolution, Estimation, Geometry, Image color analysis, Image reconstruction, Noise measurement BibRef

Ladický, L.[Lubor], Sturgess, P.[Paul], Russell, C.[Christopher], Sengupta, S.[Sunando], Bastanlar, Y.L.[Ya-Lin], Clocksin, W.F.[William F.], Torr, P.H.S.[Philip H.S.],
Joint Optimization for Object Class Segmentation and Dense Stereo Reconstruction,
IJCV(100), No. 2, November 2012, pp. 122-133.
WWW Link. 1209
BibRef
Earlier: (with the s, not z) BMVC10(xx-yy).
HTML Version. 1009
BibRef

Sturgess, P.[Paul], Ladický, L.[Lubor], Crook, N.[Nigel], Torr, P.H.S.[Philip H.S.],
Scalable Cascade Inference for Semantic Image Segmentation,
BMVC12(62).
DOI Link 1301
BibRef

Brown, R.G.[Richard G.], Chase, J.G.[J. Geoffrey], Hann, C.E.[Chris E.],
A pointwise smooth surface stereo reconstruction algorithm without correspondences,
IVC(30), No. 9, September 2012, pp. 619-629.
Elsevier DOI 1210
Stereo vision; Photogrammetry; 3D reconstruction; Medical applications BibRef

Schmidt, R.[Ralph], Heipke, C.[Christian], Wiggenhagen, M.[Manfred], Wolf, B.M.[Bernd Michael],
Dense 3D Reconstruction of Low Texture Surfaces Using an Energy Minimization Framework with Smoothness-Based Priors,
PFG(2012), No. 1, 2012, pp. 51-61.
WWW Link. 1211
BibRef

Barbu, A.,
Hierarchical Object Parsing from Structured Noisy Point Clouds,
PAMI(35), No. 7, 2013, pp. 1649-1659.
IEEE DOI 1307
Bayes methods; image denoising; principal component analysis; flexible shape models; object segmentation; Deformable models; Deal with noise and limited data. BibRef

Barbu, A.[Adrian], Zhu, S.C.[Song-Chun],
Incorporating Visual Knowledge Representation in Stereo Reconstruction,
ICCV05(I: 572-579).
IEEE DOI 0510
Include surface primitives in dense stereo reconstruction.
See also Fast Approximate Energy Minimization via Graph Cuts. BibRef

Jung, H.Y.[Ho Yub], Park, H.[Haesol], Park, I.K.[In Kyu], Lee, K.M.[Kyoung Mu], Lee, S.U.[Sang Uk],
Stereo reconstruction using high-order likelihoods,
CVIU(125), No. 1, 2014, pp. 223-236.
Elsevier DOI 1406
BibRef
Earlier: A1, A4, A5, Only:
Stereo reconstruction using high order likelihood,
ICCV11(1211-1218).
IEEE DOI 1201
High-order likelihood BibRef

Heo, Y.S.[Yong Seok], Lee, K.M.[Kyoung Mu], Lee, S.U.[Sang Uk],
Simultaneous Depth Reconstruction and Restoration of Noisy Stereo Images using Non-local Pixel Distribution,
CVPR07(1-8).
IEEE DOI 0706
BibRef

Mu, T.J.[Tai-Jiang], Wang, J.H.[Ju-Hong], Du, S.P.[Song-Pei], Hu, S.M.[Shi-Min],
Stereoscopic image completion and depth recovery,
VC(30), No. 6-8, June 2014, pp. 833-843.
WWW Link. 1407
BibRef

Antunes, M.[Michel], Barreto, J.P.[João P.],
SymStereo: Stereo Matching using Induced Symmetry,
IJCV(109), No. 3, September 2014, pp. 187-208.
WWW Link. 1408
BibRef
Earlier:
Efficient Stereo Matching Using Histogram Aggregation with Multiple Slant Hypotheses,
IbPRIA13(1-10).
Springer DOI 1307
BibRef
Earlier:
Semi-dense Piecewise Planar Stereo Reconstruction Using SymStereo and PEARL,
3DIMPVT12(230-237).
IEEE DOI 1212
BibRef
Earlier:
Stereo estimation of depth along virtual cut planes,
CVVT11(2026-2033).
IEEE DOI 1201
BibRef

Ralha, R.[Ricardo], Falcao, G.[Gabriel], Amaro, J.[Joao], Mota, V.[Vasco], Antunes, M.[Michel], Barreto, J.[Joao], Nunes, U.[Urbano],
Parallel refinement of slanted 3D reconstruction using dense stereo induced from symmetry,
RealTimeIP(16), No. 4, August 2019, pp. 1037-1055.
Springer DOI 1908
BibRef

Antunes, M.[Michel], Barreto, J.P.[João P.], Zabulis, X.[Xenophon],
Plane Surface Detection and Reconstruction using Induced Stereo Symmetry,
BMVC11(xx-yy).
HTML Version. 1110
Finding the profile of a virtual cut plane. (Like light stripes, but not.) BibRef

Graber, G.[Gottfried], Balzer, J.[Jonathan], Soatto, S.[Stefano], Pock, T.[Thomas],
Efficient minimal-surface regularization of perspective depth maps in variational stereo,
CVPR15(511-520)
IEEE DOI 1510
BibRef

Stangl, F.[Franz], Souiai, M.[Mohamed], Cremers, D.[Daniel],
Performance Evaluation of Narrow Band Methods for Variational Stereo Reconstruction,
GCPR13(194-204).
Springer DOI 1311
BibRef

Hirose, N.[Naoto], Yasunobe, T.[Tatsuki], Kawanaka, A.[Akira],
3D Shape Estimation Based on Sparsity in Stereo Matching,
ISVC13(II:562-571).
Springer DOI 1311
BibRef

Olsson, C.[Carl], Ulen, J.[Johannes], Boykov, Y.Y.[Yuri Y.],
In Defense of 3D-Label Stereo,
CVPR13(1730-1737)
IEEE DOI 1309
2nd order smoothness using 3D tangent planes. Implementation that isn't as complex as feared. BibRef

Bleyer, M.[Michael], Rhemann, C.[Christoph], Rother, C.[Carsten],
Extracting 3D Scene-Consistent Object Proposals and Depth from Stereo Images,
ECCV12(V: 467-481).
Springer DOI 1210
BibRef

Smith, M.[Marvin], Nefian, A.[Ara],
Outlier Removal in Stereo Reconstruction of Orbital Images,
ISVC10(III: 181-188).
Springer DOI 1011
BibRef

Ju, X.Y.[Xiang-Yang], Siebert, J.P.[J. Paul], Khambay, B.S.[Balvinder S.], Ayoub, A.F.[Ashraf F.],
Self-correction of 3D reconstruction from multi-view stereo images,
3DIM09(1606-1613).
IEEE DOI 0910
BibRef

Buyukatalay, S.[Soner], Birgul, O.[Ozlem], Halici, U.[Ugur],
Surface reconstruction from multiple images filtering non-Lambert regions,
ICIP09(533-536).
IEEE DOI 0911
BibRef

Kostlivá, J.[Jana], Sara, R.[Radim], Matýsková, M.[Martina],
Fairing of Discrete Surfaces with Boundary That Preserves Size and Qualitative Shape,
ISVC08(I: 107-118).
Springer DOI 0812
Meshes from stereo data. BibRef

Zabulis, X.[Xenophon], Floros, G.D.[Georgios D.],
Modulating the Size of Backprojection Surface Patches, in Volumetric Stereo, for Increasing Reconstruction Accuracy and Robustness,
3DTV07(1-4).
IEEE DOI 0705
BibRef

Lin, H.Y.[Huei-Yung], Liang, S.C.[Sung-Chung], Wu, J.R.[Jing-Ren],
3D Shape Recovery with Registration Assisted Stereo Matching,
IbPRIA07(II: 596-603).
Springer DOI 0706
BibRef

Sugimoto, S., Motooka, K., Okutomi, M.,
Direct Generation of Regular-Grid Ground Surface Map from In-Vehicle Stereo Image Sequences,
CVVT13(600-607)
IEEE DOI 1403
image motion analysis BibRef

Sugimoto, S.[Shigeki], Okutomi, M.[Masatoshi],
A Direct and Efficient Method for Piecewise-Planar Surface Reconstruction from Stereo Images,
CVPR07(1-8).
IEEE DOI 0706
BibRef

Gao, S.S.[Shan-Shan], Zhang, C.M.[Cai-Ming], Zhong, L.[Li],
Interpolation by Piecewise Quadric Polynomial to Scattered Data Points,
ISVC06(II: 106-115).
Springer DOI 0611
BibRef

Remondino, F.[Fabio], Zhang, L.[Li],
Surface Reconstruction Algorithms for Detailed Close-Range Object Modelling,
PCV06(xx-yy).
PDF File. 0609
BibRef

Ferreira, R.[Ricardo], Costeira, J.P.[João P.], Santos, J.A.[João A.],
Stereo Reconstruction of a Submerged Scene,
IbPRIA05(I:102).
Springer DOI 0509
BibRef

Murray, D.[Don], Little, J.J.[James J.],
Patchlets: Representing Stereo Vision Data with Surface Elements,
WACV05(I: 192-199).
IEEE DOI 0502
BibRef

Murray, D.[Don], Little, J.J.[James J.],
Segmenting correlation stereo range images using surface elements,
3DPVT04(656-663).
IEEE DOI 0412
BibRef

Leung, C.[Carlos], Appleton, B.[Ben], Lovell, B.C., Sun, C.M.[Chang-Ming],
An energy minimisation approach to stereo-temporal dense reconstruction,
ICPR04(IV: 72-75).
IEEE DOI 0409
BibRef

Megyesi, Z., Chetverikov, D.,
Enhanced surface reconstruction from wide baseline images,
3DPVT04(463-469).
IEEE DOI 0412
BibRef
And:
Affine propagation for surface reconstruction in wide baseline stereo,
ICPR04(IV: 76-79).
IEEE DOI 0409

See also Finding region correspondences for wide baseline stereo. BibRef

Taylor, C.J.,
Surface reconstruction from feature based stereo,
ICCV03(184-190).
IEEE DOI 0311
Can merge multiple results into single mesh. BibRef

Schlesinger, D.[Dmitrij],
Template Based Gibbs Probability Distributions for Texture Modeling and Segmentation,
DAGM06(31-40).
Springer DOI 0610
BibRef
Earlier:
Gibbs Probability Distributions for Stereo Reconstruction,
DAGM03(394-401).
Springer DOI 0310
BibRef

Buehler, C.[Chris], Gortler, S.J.[Steven J.], Cohen, M.F.[Michael F.], McMillan, L.[Leonard],
Minimal Surfaces for Stereo,
ECCV02(III: 885 ff.).
Springer DOI 0205
BibRef

Eckert, G., Wingbermühle, J., Niem, W.,
Shape Refinement for Reconstructing 3d-objects Using an Analysis-synthesis Approach,
ICIP01(III: 903-906).
IEEE DOI 0108
BibRef

Zhao, H.B.[Huai-Bin],
Global Optimal Surface from Stereo,
ICPR00(Vol I: 101-104).
IEEE DOI 0009
BibRef

Baker, S.[Simon], Szeliski, R.S.[Richard S.], Anandan, P.,
A Layered Approach to Stereo Reconstruction,
CVPR98(434-441).
IEEE DOI BibRef 9800

Le Besnerais, G., Oriot, H.,
Disparity estimation for high resolution stereoscopic reconstruction using the GNC approach,
ICIP98(II: 594-597).
IEEE DOI 9810
BibRef

Rander, P.W.[Peter W.], Narayanan, P.J., Kanade, T.[Takeo],
Recovery of Dynamic Scene Structure from Multiple Image Sequences,
MSFIIS96(305-312). Voxels.
HTML Version. BibRef 9600

Stevens, K.A., Brookes, A.,
Depth Reconstruction in Stereopsis,
ICCV87(682-686). BibRef 8700

Zhao, W.Y.[Wen-Yi], Nandhakumar, N.,
Using Partial Shape Knowledge for Stereo Reconstruction,
SCV95(194-199)
IEEE DOI University of Virginia. No major features, only fine texture available. BibRef 9500

Janová, D.[Drahomira], Jan, J.[Jirí],
Robust surface reconstruction from stereo SEM images,
CAIP95(900-905).
Springer DOI 9509
BibRef

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Reconstruction from Sparse Data .