11.3.10 Reconstructions, Applied to Stereo Imagery, Stereo Data

Chapter Contents (Back)
Stereo, Reconstruction. Surface Reconstruction.

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.[Joăo 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.[Joăo 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


Hadfield, S.[Simon], Bowden, R.[Richard],
Exploiting High Level Scene Cues in Stereo Reconstruction,
ICCV15(783-791)
IEEE DOI 1602
Cameras 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.[Joăo P.], Santos, J.A.[Joăo 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 .


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