11.3.2.1 Discontinuity Analysis in Surface Reconstruction

Grimson, W.E.L., and Pavlidis, T.,
Discontinuity Detection for Visual Surface Reconstruction,
CVGIP(30), No. 3, June 1985, pp. 316-330.
WWW Version. (Bell Labs work) An algorithm to detect disparity discontinuities from sparse data and fit a surface to the points. BibRef 8506

Terzopoulos, D.[Demetri],
The Computation of Visible-Surface Representations,
PAMI(10), No. 4, July 1988, pp. 417-438.
IEEE Abstract. IEEE Top Reference.
WWW Version. BibRef 8807

Terzopoulos, D.[Demetri],
Multilevel Computational Processes for Visual Surface Reconstruction,
CVGIP(24), No. 1, October 1983, pp. 52-96.
WWW Version. BibRef 8310
Earlier:
Multiresolution Computation of Visible-Surface Representations,
Ph.D.Thesis (MIT EECS), January 1984. BibRef
And:
The Role of Constraints and Discontinuities in Visible Surface Reconstruction,
IJCAI83(1019-1022). Relaxation. This paper uses the multi-grid relaxation technique given earlier to derive a technique for surface reconstruction that considers discontinuities. See also Multiresolution Algorithms in Computational Vision. BibRef

Terzopoulos, D.[Demetri],
Computing Visible Surface Representations,
MIT AI Memo-800, March 1985.
WWW Version. BibRef 8503

Terzopoulos, D.[Demetri],
Multi-Level Reconstruction of Visual Surfaces: Variational Principles and Finite Element Representations,
MIT AI Memo-671, April 1982.
WWW Version. BibRef 8204

Terzopoulos, D.,
Efficient Multiresolution Algorithms for Computing Lightness, Shape from Shading, and Optical Flow,
AAAI-84(314-317). BibRef 8400

Vasilescu, M.A.O., and Terzopoulos, D.,
Adaptive Meshes and Shells: Irregular Triangulation, Discontinuities, and Hierarchical Subdivisions,
CVPR92(829-832).
IEEE Abstract. IEEE Top Reference. Follow-up to the following paper. BibRef 9200

Terzopoulos, D., and Vasilescu, M.A.O.,
Sampling and Reconstruction with Adaptive Meshes,
CVPR91(70-75).
IEEE Abstract. IEEE Top Reference. Cut the surface at the detected edges. BibRef 9100

Blake, A.,
Comparison of the Efficiency of Deterministic and Stochastic Algorithms for Visual Reconstruction,
PAMI(11), No. 1, January 1989, pp. 2-12.
IEEE Abstract. IEEE Top Reference.
WWW Version. BibRef 8901
Earlier:
Reconstructing a Visible Surface,
AAAI-84(23-26). Graduated nonconvexity is better than simulated annealing both in efficiency and in problem-solving power. BibRef

Blake, A., and Zisserman, A.,
Visual Reconstruction,
Cambridge: MIT Press1987. ISBN 0262022710.
PDF Version. A complete discussion of continuity constraints. Graduated nonconvexity. BibRef 8700

Blake, A., Zisserman, A.,
Localizing Discontinuities Using Weak Continuity Constraints,
PRL(6), 1987, pp. 51-59. BibRef 8700

Blake, A., and Zisserman, A.,
Invariant Surface Reconstruction Using Weak Continuity Constraints,
CVPR86(62-67). Explicitly include discontinuities. BibRef 8600

Yi, J.H., Chelberg, D.M.,
Discontinuity-Preserving and Viewpoint Invariant Reconstruction of Visible Surfaces Using a First-Order Regularization,
PAMI(17), No. 6, June 1995, pp. 624-629.
IEEE Abstract. IEEE Top Reference.
WWW Version. Regularization. BibRef 9506

Jou, J.Y.[Jinn-Yeu], and Bovik, A.C.[Alan C.],
Improved Initial Approximation and Intensity-Guided Discontinuity Detection in Visible-Surface Reconstruction,
CVGIP(47), No. 3, September 1989, pp. 292-326.
WWW Version. BibRef 8909
Earlier:
Improving Visible-Surface Reconstruction,
CVPR88(138-143).
IEEE Abstract. IEEE Top Reference. By using edges it is possible to improve the speed and accuracy of the reconstruction. BibRef

March, R.,
Visual Reconstruction with Discontinuities Using Variational Methods,
IVC(10), No. 1, January-February 1992, pp. 30-38.
WWW Version. BibRef 9201

Sparr, G., Hansson, A., Nielsen, L.,
Discontinuity Preserving Visual Reconstruction by Means of Potential Theory,
PRL(11), 1990, pp. 117-122. BibRef 9000

Qian, W., Titterington, D.M.,
Bayesian Image Restoration: An Application to Edge-Preserving Surface Recovery,
PAMI(15), No. 7, July 1993, pp. 748-752.
IEEE Abstract. IEEE Top Reference.
WWW Version. 0401 See also On Some Bayesian/Regularization Methods for Image Restoration. BibRef

Vaidya, N.M., Boyer, K.L.,
Discontinuity-Preserving Surface Reconstruction Using Stochastic Differential Equations,
CVIU(72), No. 3, December 1998, pp. 257-270.
WWW Version. BibRef 9812

Pedersini, F.[Federico], Sarti, A., Tubaro, S.,
Visible Surface Reconstruction with Accurate Localization of Object Boundaries,
CirSysVideo(10), No. 2, March 2000, pp. 278.
IEEE Top Reference. 0003 BibRef
Earlier:
Combined surface interpolation and object segmentation for automatic 3D scene reconstruction,
ICIP98(II: 963-966).
IEEE DOI may work or IEEE-CS DOI may work. 9810 BibRef
Earlier:
Combined Motion and Edge Analysis for a Layer-Based Representation of Image Sequences,
ICIP96(I: 921-924).
IEEE DOI may work or IEEE-CS DOI may work. BibRef
Earlier:
Synthesis of virtual views using non-Lambertian reflectivity models and stereo matching,
ICIP95(II: 358-361).
IEEE DOI may work or IEEE-CS DOI may work. 9510 BibRef

Kim, J.H.[Jae-Hak], Han, J.H.[Joon H.],
A corner preserving surface inference algorithm using 3D convolution,
PRL(22), No. 3-4, March 2001, pp. 259-269.
HTML Version. 0105 BibRef

Law, N.F., Chung, R.,
Multiresolution discontinuity-preserving surface reconstruction,
PR(34), No. 11, November 2001, pp. 2133-2144.
WWW Version. 0108 BibRef
Earlier:
Surface Reconstruction with Multiresolution Discontinuity Analysis,
ECCV98(II: 202).
WWW Version. BibRef

Lin, M.H.[Michael H.], Tomasi, C.[Carlo],
Surfaces with Occlusions from Layered Stereo,
PAMI(26), No. 8, August 2004, pp. 1073-1078.
IEEE Abstract. IEEE Top Reference. 0407 BibRef
Earlier: CVPR03(I: 710-717).
IEEE Abstract. IEEE Top Reference.
WWW Version. 0307Estimate scene structure as a set of smooth surface patches. The disparities within each patch are modeled by a spline, while the extent of each patch is represented by a pixelwise labeling of the source images. Disparities and extents are alternately estimated in an iterative, energy minimization framework. BibRef

Li, K.[Kang], Wu, X.D.[Xiao-Dong], Chen, D.Z.[Danny Z.], Sonka, M.[Milan],
Optimal Surface Segmentation in Volumetric Images: A Graph-Theoretic Approach,
PAMI(28), No. 1, January 2006, pp. 119-134.
IEEE DOI may work or IEEE-CS DOI may work. 0512 BibRef
Earlier:
Globally optimal segmentation of interacting surfaces with geometric constraints,
CVPR04(I: 394-399).
IEEE Abstract. IEEE Top Reference. 0408Surfaces in CT images. BibRef

Dou, X.[Xin], Wu, X.D.[Xiao-Dong], Wahle, A.[Andreas], Sonka, M.[Milan],
Globally optimal surface segmentation using regional properties of segmented objects,
CVPR08(1-8).
IEEE DOI may work or IEEE-CS DOI may work. 0806 BibRef

Yin, X.T.[Xiao-Tian], Dai, J.F.[Jun-Fei], Yau, S.T.[Shing-Tung], Gu, X.F.[Xian-Feng],
Slit Map: Conformal Parameterization for Multiply Connected Surfaces,
GMP08(xx-yy).
WWW Version. 0804itting with multiple connected surfaces BibRef

Shimizu, M.[Masao], Okutomi, M.[Masatoshi],
Microscopic Surface Shape Estimation of a Transparent Plate Using a Complex Image,
ACCV07(II: 176-185).
WWW Version. 0711 BibRef

Fanany, M.I.[Mohamad Ivan], Kumazawa, I.[Itsuo],
Analytic Reconstruction of Transparent and Opaque Surfaces from Texture Images,
IbPRIA07(II: 380-387).
WWW Version. 0706 BibRef
Earlier:
A Neural Network for Simultaneously Reconstructing Transparent and Opaque Surfaces,
ICIAR06(II: 157-168).
WWW Version. 0610 BibRef

Wu, T.P.[Tai-Pang], Tang, C.K.[Chi-Keung],
Visible Surface Reconstruction from Normals with Discontinuity Consideration,
CVPR06(II: 1793-1800).
IEEE DOI may work or IEEE-CS DOI may work. 0606 BibRef

Yang, J.[Jing], Duncan, J.S.,
Joint prior models of neighboring objects for 3D image segmentation,
CVPR04(I: 314-319).
IEEE Abstract. IEEE Top Reference. 0408 BibRef

Wallace, A.M., Csakany, P., Buller, G., Walker, A.,
3D Imaging of Transparent Objects,
BMVC00(xx-yy).
PDF Version. 0009 BibRef

Borga, M., Knutsson, H.,
Estimating Multiple Depths in Semi-transparent Stereo Images,
SCIA99(Computer Vision III). BibRef 9900

Mathur, S., Ferrie, F.P.,
Edge Localization in Surface Reconstruction Using Optimal Estimation Theory,
CVPR97(833-838).
IEEE Abstract. IEEE Top Reference.
WWW Version. 9704 BibRef

Vaidya, N.M., Boyer, K.L.,
Discontinuity Preserving Surface Reconstruction Through Global Optimization,
SCV95(115-120).
IEEE Top Reference. Ohio State University. BibRef 9500

Shizawa, M.,
Reconstruction of multiple overlapping surfaces via standard regularization techniques,
ICPR94(A:321-325).
IEEE DOI may work or IEEE-CS DOI may work. 9410 BibRef

Figueiredo, M.A.T., and Leitao, J.M.N.,
Simulated Tearing: An Algorithm for Discontinuity-Preserving Visual Surface Reconstruction,
CVPR93(28-33).
IEEE Abstract. IEEE Top Reference. BibRef 9300

Gunsel, B., Jain, A.K.,
Visual surface reconstruction and boundary detection using stochastic models,
ICPR92(III:343-346).
IEEE DOI may work or IEEE-CS DOI may work. 9208 BibRef

Pawlak, M.,
On the detection and measurement of discontinuities,
ICPR92(III:378-381).
IEEE DOI may work or IEEE-CS DOI may work. 9208 BibRef

Marroquin, J.L.[Jose L.],
Surface Reconstruction Preserving Discontinuities,
MIT AI Memo-792, August 1984.
WWW Version. BibRef 8408

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Fitting Curved Surfaces .