11.3 Three-Dimensional Surface Reconstructions

Chapter Contents (Back)
Surface Reconstruction. Generally from sparse stereo or range finder data. A lot of the relevant papers are in other sections.
See also Diffusion Process, Diffusion Operators, Mechanism, or Technique.
See also Surface Interpolation, Surface Reconstction.
See also Implicit 3-D Models, Implicit Descriptions.

Barnhill, R.E., Brown, J.H., Klucewicz, I.M.,
A New Twist in Computer Aided Geometric Design,
CGIP(8), No. 1, August 1978, pp. 78-91. BibRef 7808

Kong, T.Y., Roscoe, A.W.,
Continuous Analogs of Axiomatized Digital Surfaces,
CVGIP(29), No. 1, January 1985, pp. 60-86.
Elsevier DOI BibRef 8501

Brevdo, L., Sideman, S., Beyar, R.,
A simple approach to the problem of 3-D reconstruction,
CVGIP(37), No. 3, March 1987, pp. 420-427.
Elsevier DOI 0501
BibRef

Bolle, R.M., and Vemuri, B.C.,
On Three-Dimensional Surface Reconstruction Methods,
PAMI(13), No. 1, January 1991, pp. 1-13.
IEEE DOI Survey, Surface Reconstruction. Surface Reconstruction, Survey. Describes a method, but no pictures. BibRef 9101

Anjyo, K., Ochi, T., Usami, Y., Kawashima, Y.,
A Practical Method of Constructing Surfaces in Three-Dimensional Digitized Space,
VC(3), 1987, pp. 4-12. BibRef 8700

Geiger, D., and Girosi, F.,
Parallel and Deterministic Algorithms from MRFs: Surface Reconstruction,
PAMI(13), No. 5, May 1991, pp. 401-412.
IEEE DOI BibRef 9105
Earlier:
Parallel and Deterministic Algorithms from MRFs: Surface Reconstruction and Integration,
ECCV90(89-98).
Springer DOI BibRef
And: MIT AI Memo-1114, May 1989.
WWW Link. BibRef
And:
Mean Field Theory for Surface Reconstruction,
DARPA89(617-630). mean field annealing. Piecewise smooth reconstructions, smoothed everywhere except the discontinuities. BibRef

Raya, S.P., and Udupa, J.K.,
Shape-based interpolation of multidimensional objects,
MedImg(9), No. 3, March 1990, pp. 32-42. BibRef 9003

Boyer, K.L., Mirza, M.J., Ganguly, G.,
The Robust Sequential Estimator: A General-Approach and Its Application to Surface Organization in Range Data,
PAMI(16), No. 10, October 1994, pp. 987-1001.
IEEE DOI Robust Technique. BibRef 9410

Mirza, M.J., Boyer, K.L.,
An information theoretic robust sequential procedure for surface model order selection in noisy range data,
CVPR92(366-371).
IEEE DOI 0403
BibRef

Bruzzone, E., de Floriani, L.,
Two Data Structures for Building Tetrahedralizations,
VC(6), 1990, pp. 266-283. BibRef 9000

Bruzzone, E., Garibotto, G., and Mangili, F.,
Three-Dimensional Surface Reconstruction Using Delaunay Triangulation in the Image Plane,
VF91(99-108). Reconstruction from stereo data. BibRef 9100

Srinivasan, P.[Partha], Liang, P.[Ping], and Hackwood, S.[Susan],
Computational Geometric Methods in Volumetric Intersection for 3D Reconstruction,
PR(23), No. 8, 1990, pp. 843-857.
Elsevier DOI BibRef 9000
Earlier: CRA89(190-195). BibRef

Kapoor, S., Mundkur, P.Y., Desai, U.B.,
Depth and Image Recovery Using a MRF Model,
PAMI(16), No. 11, November 1994, pp. 1117-1122.
IEEE DOI Simulated Annealing. BibRef 9411

Suter, D.,
Mixed Finite Element Based Neural Networks In Visual Reconstruction,
PRAI(6), 1992, pp. 113-129. BibRef 9200
And:
Coupled Depth-Slope Model Based on Augmented Lagrangian Techniques,
SPIE(1570), 1991, pp. 129-139. BibRef

Inigo Thomas, J., Hanson, A.R., Oliensis, J.,
Refining 3D Reconstructions: A Theoretical and Experimental Study of the Effect of Cross-Correlations,
CVGIP(60), No. 3, November 1994, pp. 359-370.
DOI Link BibRef 9411

Zhou, W.Y., Brock, R.H., Hopkins, P.F.,
A Digital System for Surface Reconstruction,
PhEngRS(62), No. 6, June 1996, pp. 719-726. 9606
BibRef

Shashua, A., Navab, N.,
Relative Affine Structure: Canonical Model for 3D from 2D Geometry and Applications,
PAMI(18), No. 9, September 1996, pp. 873-883.
IEEE DOI BibRef 9609
And: MIT AI Memo-1489, June 1994.
WWW Link. Structure from Motion. Algebraic and Geometric Invariants. Invariants. BibRef
Earlier: A1, A2:
Relative Affine Structure: Theory and Application to 3D Reconstruction from Perspective Views,
CVPR94(483-489).
IEEE DOI BibRef
And:
Algebraic Descriptions of Relative Affine Structure: Connections to Euclidean, Affine and Projective Structure,
Vismod270, 1994.
PS File. BibRef

Navab, N.[Nassir], Appel, M.[Mirko],
Canonical Representation and Multi-View Geometry of Cylinders,
IJCV(70), No. 2, November 2006, pp. 133-149.
Springer DOI 0608
BibRef
Earlier: A1, Only
Canonical Representation and Three View Geometry of Cylinders,
PCV02(A: 218). 0305
BibRef

Rockwood, A.P., Winget, J.,
3-Dimensional Object Reconstruction from 2-Dimensional Images,
CAD(29), No. 4, April 1997, pp. 279-285. 9703
BibRef

Veron, P., Leon, J.C.,
Static Polyhedron Simplification Using Error Measurements,
CAD(29), No. 4, April 1997, pp. 287-298. 9703
BibRef

Selfridge, P.G.,
Using a Simple Shape Measure to Improve Automatic 3D Reconstruction,
PRL(5), 1987, pp. 343-347. BibRef 8700

Nielsen, M.[Mads],
Graduated Nonconvexity By Functional Focusing,
PAMI(19), No. 5, May 1997, pp. 521-525.
IEEE DOI 9705
BibRef
Earlier:
Graduated Non-Convexity by Smoothness Focusing,
BMVC93(xx-yy).
PDF File. 9309
Reconstruct the surface given noise. Compared to:
See also Visual Reconstruction. and: Mean Field Annealing of
See also Parallel and Deterministic Algorithms from MRFs: Surface Reconstruction. and
See also Mean Field Annealing: A Formalism for Constructing GNC-Like Algorithms. BibRef

Nielsen, M.[Mads],
Surface Reconstruction: GNCs and MFA,
ICCV95(344-349).
IEEE DOI BibRef 9500
And: INRIATR 2353, September 1994. BibRef

Nielsen, M., Deriche, R.,
Binocular Dense Depth Reconstruction Using Isotropy Constraint,
SCIA95(xx-yy). BibRef 9500

Hong, L.C., Liang, Z.G., Viswambharan, A., Kaufman, A., Wax, M.,
Reconstruction and Visualization of 3D Models of Colonic Surface,
NucSci(44), No. 3, Part 2, June 1997, pp. 1297-1302. 9707
BibRef

Fua, P.V.,
From Multiple Stereo Views to Multiple 3-D Surfaces,
IJCV(24), No. 1, August 1997, pp. 19-35.
DOI Link 9709

See also Object-Centered Surface Reconstruction: Combining Multi-Image Stereo and Shading. BibRef

Fua, P.V.[Pascal V.],
Stereo Reconstruction from Multiple Views,
Ascona95(23-32). BibRef 9500
And:
Reconstructing Complex Surfaces from Multiple Stereo Views,
ICCV95(1078-1085).
IEEE DOI BibRef
And: SRI-TN-550. Merging 3-D data computed from stereo views. BibRef

Fua, P.V., and Sander, P.T.,
Reconstructing Surfaces from Unstructured 3D Points,
DARPA92(615-625). BibRef 9200
And:
From Points to Surfaces,
SPIE(1570), 1991, pp. 286-296. BibRef
And:
Segmenting Unstructured 3D Points into Surfaces,
ECCV92(676-680).
Springer DOI Data Fusion. Combine the data from multiple views. BibRef

Murino, V.[Vittorio], Trucco, A.[Andrea], Regazzoni, C.S.[Carlo S.],
A Probabilistic Approach to the Coupled Reconstruction and Restoration of Underwater Acoustic Images,
PAMI(20), No. 1, January 1998, pp. 9-22.
IEEE DOI 9803
Apply the physics of generating acoustic images to reconstruction. BibRef

Murino, V.[Vittorio], Trucco, A.[Andrea],
Confidence-Based Approach to Enhancing Underwater Acoustic Image Formation,
IP(8), No. 2, February 1999, pp. 270-285.
IEEE DOI BibRef 9902

Murino, V.[Vittorio], Trucco, A.[Andrea],
Three-dimensional image generation and processing in underwater acoustic vision,
PIEEE(88), No. 12, December 2000, pp. 1903-1948.
IEEE DOI 0012
BibRef

Murino, V., Foresti, G.L., and Trucco, A.,
Object Pose Estimation in Underwater Acoustic Images,
ICIP97(I: 873-876).
IEEE DOI BibRef 9700

Tao, L.M.[Lin-Mi], Castellani, U., Murino, V.,
Robust 3D segmentation for underwater acoustic images,
3DPVT04(813-819).
IEEE DOI 0412
BibRef

Tao, L., Murino, V., Medioni, G.,
A tensor voting approach for the hierarchical segmentation of 3-D acoustic images,
3DPVT02(126-135).
IEEE DOI 0206
BibRef

Murino, V.[Vittorio], Trucco, A.[Andrea],
Edge/region-based Segmentation and Reconstruction of Underwater Acoustic Images By Markov Random Fields,
CVPR98(408-413).
IEEE DOI BibRef 9800

Murino, V.[Vittorio], Frumento, E.[Enrico], Gabino, F.[Flavio],
Restoration of noisy underwater acoustic images using Markov Random Fields,
CIAP95(354-360).
Springer DOI 9509
BibRef

Sutton, E., Na, H.,
Time-Varying Reconstruction of the Ionosphere: 1. The Algorithm,
IJIST(9), No. 6, 1998, pp. 484-490. 9812
BibRef
Earlier:
High resolution ionospheric tomography through orthogonal decomposition,
ICIP94(II: 148-152).
IEEE DOI 9411
BibRef

Sutton, E., Na, H.,
Time-Varying Reconstruction of the Ionosphere: 2. Data Source Analysis,
IJIST(9), No. 6, 1998, pp. 491-499. 9812
BibRef

Lai, S.H.[Shang-Hong], Vemuri, B.C.[Baba C.],
Efficient hybrid search for visual reconstruction problems,
IVC(17), No. 1, January 1999, pp. 37-49.
Elsevier DOI
See also Reliable and Efficient Computation of Optical Flow. BibRef 9901

Miyajima, K.[Koji], Mukawa, N.[Naoki],
Surface Reconstruction by Smoothness MAP Estimation,
PR(31), No. 12, December 1998, pp. 1969-1980.
Elsevier DOI BibRef 9812
Earlier: ICIP98(II: 967-971).
IEEE DOI 9810
BibRef

Chen, H.Y., Lee, I.K., Leopoldseder, S., Pottmann, H., Randrup, T., Wallner, J.,
On Surface Approximation Using Developable Surfaces,
GMIP(61), No. 2, March 1999, pp. 110-124.
See also Registration without ICP. BibRef 9903

Hicks, R.A.[R. Andrew], Pettey, D.[David], Daniilidis, K.[Kostas], Bajcsy, R.[Ruzena],
Closed Form Solutions for Reconstruction Via Complex Analysis,
JMIV(13), No. 1, August 2000, pp. 57-70.
DOI Link 0006
BibRef
Earlier:
Complex Analysis for Reconstruction from Controlled Motion,
CAIP99(301-310).
Springer DOI 9909
BibRef

Torr, P.H.S.,
Bayesian Model Estimation and Selection for Epipolar Geometry and Generic Manifold Fitting,
IJCV(50), No. 1, October 2002, pp. 35-61.
DOI Link 0210
BibRef
Earlier:
An Assessment of Information Criteria for Motion Model Selection,
CVPR97(47-52).
IEEE DOI 9704
Evaluation of criteria. BibRef

Tognola, G.[Gabriella], Parazzini, M.[Marta], Svelto, C.[Cesare], Ravazzani, P.[Paolo], Grandori, F.[Ferdinando],
A fast and reliable system for 3D surface acquisition and reconstruction,
IVC(21), No. 3, March 2003, pp. 295-305.
Elsevier DOI 0301
BibRef

Sbert, C.[Catalina], Solé, A.F.[Andreas F.],
3D Curves Reconstruction Based on Deformable Models,
JMIV(18), No. 3, May 2003, pp. 211-223.
DOI Link 0304
BibRef
Earlier:
Stereo Reconstruction of 3D Curves,
ICPR00(Vol I: 912-915).
IEEE DOI 0009
BibRef

Hu, Z.Y.[Zhan-Yi], Wu, F.C.[Fu-Chao], Wang, G.H.[Guang-Hui],
The impossibility of affine reconstruction from perspective image pairs obtained by a translating camera with varying parameters,
PRL(24), No. 16, December 2003, pp. 2909-2911.
Elsevier DOI 0310
BibRef

Wang, G.H.[Guang-Hui], Wu, Q.M.J.[Q. M. Jonathan],
Perspective 3-D Euclidean Reconstruction With Varying Camera Parameters,
CirSysVideo(19), No. 12, December 2009, pp. 1793-1803.
IEEE DOI 0912
BibRef

Wang, G.H.[Guang-Hui], Wu, Q.M.J.[Q.M. Jonathan],
The quasi-perspective model: Geometric properties and 3D reconstruction,
PR(43), No. 5, May 2010, pp. 1932-1942.
Elsevier DOI 1003
Quasi-perspective projection; Fundamental matrix; Essential matrix; Homography; 3D reconstruction; Projective geometry BibRef

Wang, G.H.[Guang-Hui], Wu, Q.M.J.[Q. M. Jonathan],
Quasi-perspective Projection Model: Theory and Application to Structure and Motion Factorization from Uncalibrated Image Sequences,
IJCV(87), No. 3, May 2010, pp. xx-yy.
Springer DOI 1003
BibRef

Wang, G.H.[Guang-Hui], Wu, Q.M.J.[Q. M. Jonathan], Sun, G.Q.[Guo-Qiang],
Quasi-perspective projection with applications to 3D factorization from uncalibrated image sequences,
CVPR08(1-8).
IEEE DOI 0806
BibRef

Gil, D.[Debora], Radeva, P.I.[Petia I.],
A Regularized Curvature Flow Designed for a Selective Shape Restoration,
IP(13), No. 11, November 2004, pp. 1444-1458.
IEEE DOI 0411
BibRef

Gil, D.[Debora], Radeva, P.I.[Petia I.],
Shape Restoration via a Regularized Curvature Flow,
JMIV(21), No. 3, November 2004, pp. 205-223.
DOI Link 0410
BibRef

Sun, B.Y., Huang, D.S., Fang, H.T.,
Lidar Signal Denoising Using Least-Squares Support Vector Machine,
SPLetters(12), No. 2, February 2005, pp. 101-104.
IEEE Abstract. 0501
BibRef

Drost, R.J.[Robert J.], Singer, A.C.[Andrew C.],
Factor graph methods for three-dimensional shape reconstruction as applied to LIDAR imaging,
JOSA-A(21), No. 10, October 2004, pp. 1855-1868.
DOI Link 0501
BibRef

Souza, A., Udupa, J.K., Saha, P.K.,
Volume Rendering in the Presence of Partial Volume Effects,
MedImg(24), No. 2, February 2005, pp. 223-235.
IEEE Abstract. 0501
BibRef

Shen, L.[Li], Makedon, F.[Fillia],
Spherical mapping for processing of 3D closed surfaces,
IVC(24), No. 7, July 2006, pp. 743-761.
Elsevier DOI 0608
Spherical parameterization; Shape analysis; Surface modeling. Originally spherical model only for voxel surfaces, new form for general mesh representations. BibRef

Shen, L.[Li], Huang, H.[Heng], Makedon, F.[Fillia], Saykin, A.J.[Andrew J.],
Efficient Registration of 3D SPHARM Surfaces,
CRV07(81-88).
IEEE DOI 0705
BibRef

Huang, H.[Heng], Zhang, L.[Lei], Samaras, D.[Dimitris], Shen, L.[Li], Zhang, R.[Rong], Makedon, F.[Fillia], Pearlman, J.[Justin],
Hemispherical Harmonic Surface Description and Applications to Medical Image Analysis,
3DPVT06(381-388).
IEEE DOI 0606
BibRef

Huang, H.[Heng], Shen, L.[Li], Zhang, R.[Rong], Makedon, F.[Fillia], Pearlman, J.[Justin],
A Spatio-Temporal Modeling Method for Shape Representation,
3DPVT06(1034-1040).
IEEE DOI 0606
BibRef

Shen, L.[Li], Chung, M.K.[Moo K.],
Large-Scale Modeling of Parametric Surfaces Using Spherical Harmonics,
3DPVT06(294-301).
IEEE DOI 0606
BibRef

Wang, J.N.[Jian-Ning], Oliveira, M.M.[Manuel M.], Zhang, H.T.[Hai-Tao], Kaufman, A.E.[Arie E.],
Reconstructing regular meshes from points: A parameterization-based approach,
VC(24), No. 5, May 2008, pp. xx-yy.
Springer DOI 0804
BibRef

Cui, S.H.[Shi Hua], Liu, J.[Jie],
Simplified patterns for extracting the isosurfaces of solid objects,
IVC(26), No. 2, 1 February 2008, pp. 174-186.
Elsevier DOI 0711
Surface reconstruction; Marching cubes; Isosurface; Triangulation BibRef

Gardner, R.J.[Richard J.], Kiderlen, M.[Markus],
A New Algorithm for 3D Reconstruction from Support Functions,
PAMI(31), No. 3, March 2009, pp. 556-562.
IEEE DOI 0902
A linear version is suitable for low noise with sufficient measurements. Builds on:
See also Reconstructing Convex Sets from Support Line Measurements.
See also Shape Estimation from Support and Diameter Functions. BibRef

Lin, Y.X.[Yu-Xu], Chen, C.[Chun], Song, M.L.[Ming-Li], Liu, Z.C.[Zi-Cheng],
Dual-RBF based surface reconstruction,
VC(25), No. 5-7, May 2009, pp. xx-yy.
Springer DOI 0905
BibRef

Han, B.[Bing], Paulson, C.[Christopher], Wu, D.P.[Da-Peng],
3D dense reconstruction from 2D video sequence via 3D geometric segmentation,
JVCIR(22), No. 5, July 2011, pp. 421-431.
Elsevier DOI 1106
Geometric segmentation; Surface fitting; Dense matching; Dense reconstruction; 3D scene reconstruction; Deterministic annealing; Expanded deterministic annealing; 3D geometry BibRef

Han, B.[Bing], Paulson, C.[Christopher], Wu, D.P.[Da-Peng],
Depth-based image registration via three-dimensional geometric segmentation,
IET-CV(6), No. 5, 2012, pp. 397-406.
DOI Link 1210
BibRef

Pan, R.J.[Rong-Jiang], Skala, V.[Vaclav],
Surface reconstruction with higher-order smoothness,
VC(27), No. 2, February 2011, pp. 155-162.
WWW Link. 1203
BibRef

Pan, R.J.[Rong-Jiang], Taubin, G.[Gabriel],
Automatic segmentation of point clouds from multi-view reconstruction using graph-cut,
VC(32), No. 5, May 2016, pp. 601-609.
WWW Link. 1605
BibRef

Bellocchio, F., Borghese, N.A., Ferrari, S., Piuri, V.,
3D Surface Reconstruction: Multi-Scale Hierarchical Approaches,
Springer2013. ISBN 978-1-4614-5631-5 Buy this book: 3D Surface Reconstruction: Multi-Scale Hierarchical Approaches
WWW Link. 1211
Hierarchical modeling. BibRef

Schöner, H., Bauer, F., Dorrington, A.A., Heise, B., Wieser, V., Payne, A.D., Cree, M.J., Moser, B.,
Image processing for three-dimensional scans generated by time-of-flight range cameras,
JEI(21), No. 2, 2012, pp. 023012.
DOI Link 1211
BibRef

Frank, M., Plaue, M., Rapp, H., Köthe, U., Jähne, B., Hamprecht, F.A.[Fred A.],
Theoretical and experimental error analysis of continuous-wave time-of-flight range cameras,
OptEng(48), No. 1, 2009, pp. 013602.
DOI Link 1211
BibRef

Moser, B., Bauer, F., Elbau, P., Heise, B., Schöner, H.,
Denoising techniques for raw 3D data of TOF cameras based on clustering and wavelets,
SPIE(6805), 2008, pp. 68050E
DOI Link 1211
BibRef

Schöner, H.[Holger],
Denoising 3D images from time-of-flight cameras using extended anisotropic diffusion,
SPIE(Newsroom), October 30, 2012
DOI Link 1211
A trio of denoising methods improves on standard methods by exploiting the dependence of range-image noise levels on intensity-image values in recordings from time-of-flight cameras. BibRef

Fayolle, P.A.[Pierre-Alain], Pasko, A.[Alexander],
Segmentation of discrete point clouds using an extensible set of templates,
VC(29), No. 5, May 2013, pp. 449-465.
WWW Link. 1305
BibRef

Fayolle, P.A., Rosenberger, C., Toinard, C.,
3d shape reconstruction of template models using genetic algorithms,
ICPR04(II: 269-272).
IEEE DOI 0409
BibRef

Qian, N.Q.[Ning-Qing],
Efficient Poisson-Based Surface Reconstruction of 3D Model from a Non-homogenous Sparse Point Cloud,
ICISP14(578-585).
Springer DOI 1406
BibRef

Dahyot, R.[Rozenn], Ruttle, J.[Jonathan],
Generalised relaxed Radon transform (GR2T) for robust inference,
PR(46), No. 3, March 2013, pp. 788-794.
Elsevier DOI 1212
Generalised Radon transform; Hough transform; Robust inference; M-estimator; Generalised projection based M-estimator BibRef

Ruttle, J.[Jonathan], Arellano, C.[Claudia], Dahyot, R.[Rozenn],
Robust shape from depth images with GR2T,
PRL(50), No. 1, 2014, pp. 43-54.
Elsevier DOI 1410
Shape from depth BibRef

Dahyot, R.[Rozenn],
GR2T vs L2E with Nuisance Scale,
ICPR14(3857-3861)
IEEE DOI 1412
Equations BibRef

Rostami, M.[Mohammad], Michailovich, O.V.[Oleg V.], Wang, Z.[Zhou],
Surface Reconstruction in Gradient-Field Domain Using Compressed Sensing,
IP(24), No. 5, May 2015, pp. 1628-1638.
IEEE DOI 1504
BibRef
Earlier:
Gradient-based surface reconstruction using compressed sensing,
ICIP12(913-916).
IEEE DOI 1302
Approximation methods BibRef

Guo, D.[Dan], Li, C.Q.[Chuan-Qing], Wu, L.[Lu], Yang, J.Z.[Jian-Zhong],
Improved marching tetrahedra algorithm based on hierarchical signed distance field and multi-scale depth map fusion for 3D reconstruction,
JVCIR(48), No. 1, 2017, pp. 491-501.
Elsevier DOI 1708
3D reconstruction BibRef

Gong, S.[Sui], Newman, T.S.[Timothy S.],
Fine feature sensitive marching squares,
IET-IPR(11), No. 9, September 2017, pp. 796-802.
DOI Link 1709
BibRef
Earlier:
Dual Marching Squares: Description and analysis,
Southwest16(53-56)
IEEE DOI 1605
Atmospheric measurements. Isocontouring. BibRef

Zhao, X.[Xin], Kargoll, B.[Boris], Omidalizarandi, M.[Mohammad], Xu, X.Y.[Xiang-Yang], Alkhatib, H.[Hamza],
Model Selection for Parametric Surfaces Approximating 3D Point Clouds for Deformation Analysis,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
BibRef

Wang, L.[Lei], Huang, Y.C.[Yu-Chun], Shan, J.[Jie], He, L.[Liu],
MSNet: Multi-Scale Convolutional Network for Point Cloud Classification,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
BibRef

de Sales Guerra Tsuzuki, M.[Marcos], Sato, A.K.[André Kubagawa], Ueda, E.K.[Edson Kenji], de Castro Martins, T.[Thiago],
Propagation-based marching cubes algorithm using open boundary loop,
VC(34), No. 10, October 2018, pp. 1339-1355.
Springer DOI 1809
BibRef

He, Y.C.[Yu-Chen], Kang, S.H.[Sung Ha], Liu, H.[Hao],
Curvature Regularized Surface Reconstruction from Point Clouds,
SIIMS(13), No. 4, 2020, pp. 1834-1859.
DOI Link 2012
BibRef

Cui, G.Y.[Guang-Yu], Law, H.[Ho], Kang, S.H.[Sung Ha],
Surface Reconstruction from Noisy Point Cloud Using Directional G-norm,
SSVM23(94-106).
Springer DOI 2307
BibRef

Zou, Q.[Qing], Jacob, M.[Mathews],
Recovery of Surfaces and Functions in High Dimensions: Sampling Theory and Links to Neural Networks,
SIIMS(14), No. 2, 2021, pp. 580-619.
DOI Link 2107
BibRef


Ren, S.[Siyu], Hou, J.H.[Jun-Hui], Chen, X.D.[Xiao-Dong], He, Y.[Ying], Wang, W.P.[Wen-Ping],
GeoUDF: Surface Reconstruction from 3D Point Clouds via Geometry-guided Distance Representation,
ICCV23(14168-14178)
IEEE DOI Code:
WWW Link. 2401
BibRef

Jiang, J.G.[Jin-Gen], Zhao, M.Y.[Ming-Yang], Xin, S.Q.[Shi-Qing], Yang, Y.C.[Yan-Chao], Wang, H.[Hanxiao], Jia, X.H.[Xiao-Hong], Yan, D.M.[Dong-Ming],
Structure-Aware Surface Reconstruction via Primitive Assembly,
ICCV23(14125-14134)
IEEE DOI 2401
BibRef

Choe, J.[Jaesung], Choy, C.[Christopher], Park, J.[Jaesik], Kweon, I.S.[In So], Anandkumar, A.[Anima],
Spacetime Surface Regularization for Neural Dynamic Scene Reconstruction,
ICCV23(17825-17835)
IEEE DOI Code:
WWW Link. 2401
BibRef

Xu, L.[Luoyuan], Guan, T.[Tao], Wang, Y.[Yuesong], Liu, W.K.[Wen-Kai], Zeng, Z.J.[Zhao-Jie], Wang, J.[Junle], Yang, W.[Wei],
C2F2NeUS: Cascade Cost Frustum Fusion for High Fidelity and Generalizable Neural Surface Reconstruction,
ICCV23(18245-18255)
IEEE DOI 2401
BibRef

Li, Z.S.[Zhao-Shuo], Müller, T.[Thomas], Evans, A.[Alex], Taylor, R.H.[Russell H.], Unberath, M.[Mathias], Liu, M.Y.[Ming-Yu], Lin, C.H.[Chen-Hsuan],
Neuralangelo: High-Fidelity Neural Surface Reconstruction,
CVPR23(8456-8465)
IEEE DOI 2309
BibRef

Huang, J.[Jiahui], Gojcic, Z.[Zan], Atzmon, M.[Matan], Litany, O.[Or], Fidler, S.[Sanja], Williams, F.[Francis],
Neural Kernel Surface Reconstruction,
CVPR23(4369-4379)
IEEE DOI 2309
BibRef

Kulkarni, N.[Nilesh], Johnson, J.[Justin], Fouhey, D.F.[David F.],
Directed Ray Distance Functions for 3D Scene Reconstruction,
ECCV22(II:201-219).
Springer DOI 2211
BibRef

Agarwala, S.[Samir], Jin, L.[Linyi], Rockwell, C.[Chris], Fouhey, D.F.[David F.],
PlaneFormers: From Sparse View Planes to 3D Reconstruction,
ECCV22(III:192-209).
Springer DOI 2211
BibRef

Chen, G.C.[Guang-Cheng], He, L.[Li], Guan, Y.S.[Yi-Sheng], Zhang, H.[Hong],
Perspective Phase Angle Model for Polarimetric 3D Reconstruction,
ECCV22(II:398-414).
Springer DOI 2211
BibRef

Ramamonjisoa, M.[Michaël], Stekovic, S.[Sinisa], Lepetit, V.[Vincent],
MonteBoxFinder: Detecting and Filtering Primitives to Fit a Noisy Point Cloud,
ECCV22(XXVIII:161-177).
Springer DOI 2211
fit cuboids to the input scene BibRef

Lei, N.[Na], Gu, X.F.[Xian-Feng],
FFT-OT: A Fast Algorithm for Optimal Transportation,
ICCV21(6260-6269)
IEEE DOI 2203
Finds the most economical way to transport one probability measure to the other. Deep learning, Surface reconstruction, Poisson equations, Transportation, Boundary conditions, Recognition and classification BibRef

Chen, D.[Duo], Tang, Z.X.[Zi-Xin], Xu, Z.Y.[Zhen-Yu], Zheng, Y.[Yunan], Liu, Y.G.[Yi-Guang],
Gaussian Fusion: Accurate 3D Reconstruction via Geometry-Guided Displacement Interpolation,
ICCV21(5896-5905)
IEEE DOI 2203
Interpolation, Surface reconstruction, Uncertainty, Shape, Gears, Vents, Stereo, 3D from multiview and other sensors, Vision for robotics and autonomous vehicles BibRef

Ummenhofer, B.[Benjamin], Koltun, V.[Vladlen],
Adaptive Surface Reconstruction with Multiscale Convolutional Kernels,
ICCV21(5631-5640)
IEEE DOI 2203
Point cloud compression, Surface reconstruction, Octrees, Noise measurement, Kernel, Stereo, BibRef

Poliarnyi, N.[Nikolai],
Out-of-Core Surface Reconstruction via Global TGV Minimization,
ICCV21(5621-5630)
IEEE DOI 2203
Point cloud compression, Surface reconstruction, Laser radar, Instruction sets, Octrees, Merging, Reconstruction algorithms, BibRef

Ding, Y.Q.[Yu-Qi], Ji, Y.[Yu], Zhou, M.Y.[Ming-Yuan], Kang, S.B.[Sing Bing], Ye, J.W.[Jin-Wei],
Polarimetric Helmholtz Stereopsis,
ICCV21(5017-5026)
IEEE DOI 2203
Reflectivity, Surface reconstruction, Prototypes, Hardware, Distance measurement, Low-level and physics-based vision, 3D from multiview and other sensors BibRef

Bednarik, J.[Jan], Kim, V.G.[Vladimir G.], Chaudhuri, S.[Siddhartha], Parashar, S.[Shaifali], Salzmann, M.[Mathieu], Fua, P.[Pascal], Aigerman, N.[Noam],
Temporally-Coherent Surface Reconstruction via Metric-Consistent Atlases,
ICCV21(10438-10447)
IEEE DOI 2203
Point cloud compression, Geometry, Surface reconstruction, Shape, Neural networks, Loss measurement, Representation learning, Neural generative models BibRef

Shapovalov, R.[Roman], Novotny, D.[David], Graham, B.[Benjamin], Labatut, P.[Patrick], Vedaldi, A.[Andrea],
DensePose 3D: Lifting Canonical Surface Maps of Articulated Objects to the Third Dimension,
ICCV21(11709-11719)
IEEE DOI 2203
Surface reconstruction, Solid modeling, Animals, Shape, Annotations, Image annotation, Gestures and body pose, Transfer/Low-shot/Semi/Unsupervised Learning BibRef

Siddiqui, Y.[Yawar], Thies, J.[Justus], Ma, F.C.[Fang-Chang], Shan, Q.[Qi], Nießner, M.[Matthias], Dai, A.[Angela],
RetrievalFuse: Neural 3D Scene Reconstruction with a Database,
ICCV21(12548-12557)
IEEE DOI 2203
Geometry, Point cloud compression, Training, Surface reconstruction, Dictionaries, 3D from multiview and other sensors BibRef

Xie, J.W.[Jian-Wen], Xu, Y.F.[Yi-Fei], Zheng, Z.[Zilong], Zhu, S.C.[Song-Chun], Wu, Y.N.[Ying Nian],
Generative PointNet: Deep Energy-Based Learning on Unordered Point Sets for 3D Generation, Reconstruction and Classification,
CVPR21(14971-14980)
IEEE DOI 2111
Measurement, Deep learning, Solid modeling, Interpolation, Computational modeling, Neural networks BibRef

Bautista, M.A.[Miguel Angel], Talbott, W.[Walter], Zhai, S.F.[Shuang-Fei], Srivastava, N.[Nitish], Susskind, J.M.[Joshua M.],
On the generalization of learning-based 3D reconstruction,
WACV21(2179-2188)
IEEE DOI 2106
Training, Geometry, Solid modeling, Aggregates BibRef

Lionar, S.[Stefan], Emtsev, D.[Daniil], Svilarkovic, D.[Dusan], Peng, S.[Songyou],
Dynamic Plane Convolutional Occupancy Networks,
WACV21(1828-1837)
IEEE DOI 2106
Surface reconstruction, Shape, Noise measurement, Convolutional neural networks BibRef

Groueix, T.[Thibault], Fisher, M.[Matthew], Kim, V.G.[Vladimir G.], Russell, B.C.[Bryan C.], Aubry, M.[Mathieu],
A Papier-Mache Approach to Learning 3D Surface Generation,
CVPR18(216-224)
IEEE DOI 1812
Shape, Surface treatment, Manifolds, Surface texture, Image resolution BibRef

Algarni, M.[Marei], Sundaramoorthi, G.[Ganesh],
SurfCut: Free-Boundary Surface Extraction,
ECCV16(VII: 171-186).
Springer DOI 1611
BibRef

Boulch, A.[Alexandre], Marlet, R.[Renaud],
Statistical Criteria for Shape Fusion and Selection,
ICPR14(936-941)
IEEE DOI 1412
Image segmentation Surface reconstruction from point clouds. BibRef

Wang, Y.[Yan], Feng, J.[Jie], Wu, Z.X.[Zhi-Xiang], Wang, J.[Jun], Chang, S.F.[Shih-Fu],
From Low-Cost Depth Sensors to CAD: Cross-Domain 3D Shape Retrieval via Regression Tree Fields,
ECCV14(I: 489-504).
Springer DOI 1408
BibRef

Zhang, C.M.[Cai-Ming], Zhang, X.[Xin], Li, X.M.[Xue-Mei], Cheng, F.H.[Fu-Hua],
Cubic surface fitting to image with edges as constraints,
ICIP13(1046-1050)
IEEE DOI 1402
Biomedical imaging BibRef

Salih, Y.[Yasir], Malik, A.S.[Aamir Saeed], Walter, N.[Nicolas], Sidibé, D.[Désiré], Saad, N.[Naufal],
Noise Robustness Analysis of Point Cloud Descriptors,
ACIVS13(68-79).
Springer DOI 1311
BibRef

Yang, Z.X.[Zhi-Xin], Xiao, D.[Difu],
A systemic point-cloud de-noising and smoothing method for 3D shape reuse,
ICARCV12(1722-1727).
IEEE DOI 1304
BibRef

Chen, L.[Li], Lin, H.[Hui], Li, S.T.[Shu-Tao],
Depth image enhancement for Kinect using region growing and bilateral filter,
ICPR12(3070-3073).
WWW Link. 1302
BibRef

Kim, D.Y.[Dae-Young], Yoon, K.J.[Kuk-Jin],
High-quality depth map up-sampling robust to edge noise of range sensors,
ICIP12(553-556).
IEEE DOI 1302
BibRef

Schmidt, F.R.[Frank R.], Boykov, Y.Y.[Yuri Y.],
Hausdorff Distance Constraint for Multi-surface Segmentation,
ECCV12(I: 598-611).
Springer DOI 1210
BibRef

Olsson, C.[Carl], Boykov, Y.Y.[Yuri Y.],
Curvature-based regularization for surface approximation,
CVPR12(1576-1583).
IEEE DOI 1208
BibRef

Gutierrez, A.[Antonio], Monaghan, D.[David], Jiménez, M.J.[María José], O'Connor, N.E.[Noel E.],
Persistent Homology for 3D Reconstruction Evaluation,
CTIC12(139-147).
Springer DOI 1206
BibRef

McCarthy, C.[Chris], Barnes, N.M.[Nick M.],
Surface Extraction from Iso-disparity Contours,
ACCV10(IV: 410-421).
Springer DOI 1011
BibRef

Sanchez T., G.[German], Branch, J.W.[John William],
Toward an Automatic Hole Characterization for Surface Correction,
ISVC10(I: 602-611).
Springer DOI 1011
BibRef

Deboeverie, F.[Francis], Teelen, K.[Kristof], Veelaert, P.[Peter], Philips, W.[Wilfried],
Adaptive Constructive Polynomial Fitting,
ACIVS10(I: 173-184).
Springer DOI 1012
BibRef

Menna, F., Tioisi, S.,
Low Cost Reverse Engineering Techniques for 3D Modelling of Propellers,
CloseRange10(xx-yy).
PDF File. 1006
BibRef

Maillot, Y.[Yvan], Presles, B.[Benoît], Debayle, J.[Johan],
Shape Reconstruction from an Unorganized Point Cloud with Outliers,
ICIAR12(I: 261-268).
Springer DOI 1206

See also Automatic Recognition of 2D Shapes from a Set of Points. BibRef

Maillot, Y.[Yvan], Adam, B.[Bruno], Melkemi, M.[Mahmoud],
Shape Reconstruction from Unorganized Set of Points,
ICIAR10(I: 274-283).
Springer DOI 1006
BibRef

Sur, A.[Arijit], Goel, P.[Piyush], Mukherjee, J.[Jayanta],
A New Statistical Restoration Method for Spatial Domain Images,
PReMI09(297-302).
Springer DOI 0912
BibRef

Kawai, N.[Norihiko], Zakhor, A.[Avideh], Sato, T.[Tomokazu], Yokoya, N.[Naokazu],
Surface completion of shape and texture based on energy minimization,
ICIP11(897-900).
IEEE DOI 1201
BibRef
Earlier: A1, A3, A4, Only:
Efficient surface completion using principal curvature and its evaluation,
ICIP09(521-524).
IEEE DOI 0911
BibRef
Earlier: A1, A3, A4, Only:
Surface completion by minimizing energy based on similarity of shape,
ICIP08(1532-1535).
IEEE DOI 0810
BibRef

Paulsen, R.R.[Rasmus R.], Baerentzen, J.A.[Jakob Andreas], Larsen, R.[Rasmus],
Regularisation of 3D Signed Distance Fields,
SCIA09(513-519).
Springer DOI 0906
For shape modeling or registration, initial fields have holes and missing data. BibRef

Granero, L., Diaz, F., Dominguez, R., Hervis, J., Simon, S., Perez, E., Olcina, M.,
Documentation of the roman bronze hand found in the site of 'El Tossal' in Lucentum,
3DARCH09(xx-yy).
PDF File. 0902
BibRef

Pop, G.[Georgeta],
Integrating Photogrametric Technologies and Geodetic Methods for 3D Modeling,
ISPRS08(B5: 549 ff).
PDF File. 0807
BibRef

Ghane, M., Sattari, M., Samadzadegan, F., Azizi, A.,
A Review of Recent Range Image Reconstruction Algorithms,
ISPRS08(B3b: 277 ff).
PDF File. 0807
BibRef

Schaffrin, B.[Burkhard], Uzun, S.[Sibel],
Surface Reconstruction via Total Least-Squares Adjustment of the Semi-Variogram,
ISPRS08(B3b: 141 ff).
PDF File. 0807
BibRef

Rajpoot, N.M., Arif, M.,
Unsupervised Shape Clustering using Diffusion Maps,
BMVA(2008), No. 5, 2008, pp. 1-15.
PDF File. 1209
BibRef

Rajpoot, N.M., Arif, M., Bhalerao, A.H.,
Unsupervised Learning of Shape Manifolds,
BMVC07(xx-yy).
PDF File. 0709
BibRef

Doi, J.[Junta], Shimizu, K.[Kentaro], Sato, W.[Wataru],
High-Density Scanning for Virtual Heritage and Archeology : Reproduction and Restoration,
3DTV07(1-4).
IEEE DOI 0705
BibRef

Gruber, A., Schneider, S.,
Digital Surface Models from UltraCam-X Images,
PIA07(47).
PDF File. 0711
BibRef

Kuhn, A.[Andreas],
Scalable 3D surface reconstruction by local stochastic fusion of disparity maps,
Ph.D.Thesis, University of the Bundeswehr, 2014.
WWW Link. BibRef 1400

Kuhn, A., Mayer, H.,
Incremental Division of Very Large Point Clouds for Scalable 3D Surface Reconstruction,
MSF15(157-165)
IEEE DOI 1602
Image reconstruction BibRef

Ton, D., Mayer, H.,
3D Least-Squares-Based Surface Reconstruction,
PIA07(69).
PDF File. 0711
BibRef

Xu, S.H.[Song-Hua], Georghiades, A.[Athinodoros], Rushmeier, H.E.[Holly E.], Dorsey, J.[Julie], McMillan, L.[Leonard],
Image Guided Geometry Inference,
3DPVT06(310-317).
IEEE DOI 0606
Filling holes in geometry obtained from 3D range scanners. BibRef

Oya, T.[Tetsuo], Mikami, T.[Takenori], Kaneko, T.[Takanobu], Higashi, M.[Masatake],
Parametric Design Method for Shapes with Aesthetic Free-Form Surfaces,
GMP06(371-384).
Springer DOI 0607
BibRef

Li, B., Meng, Q., Holstein, H.,
Compact Representation of Range Imaging Surfaces,
ICIP06(2189-2192).
IEEE DOI 0610
BibRef

Olague, G.[Gustavo], Puente, C.[Cesar],
Honeybees as an Intelligent based Approach for 3D Reconstruction,
ICPR06(I: 1116-1119).
IEEE DOI 0609
3-D points communicate like honeybees to construct. BibRef

Zhou, H.[Hong], Liu, Y.H.[Yong-Huai], Li, L.Z.[Long-Zhuang], Wei, B.G.[Bao-Gang],
A clustering approach to free form surface reconstruction from multi-view range images,
IVC(27), No. 6, 4 May 2009, pp. 725-747.
Elsevier DOI 0904
Free form surface reconstruction; Range images; Principal component analysis; Hierarchical segmentation; Tensor analysis; Surface classification; K Means clustering; Fuzzy c means clustering BibRef

Fei, G.Q.[Guo-Qiang], Liu, Y.H.[Yong-Huai], Wei, B.G.[Bao-Gang], Li, L.Z.[Long-Zhuang],
Discontinuity-Based Simplification of Free Form Surface From a Range Image,
ICPR06(IV: 13-16).
IEEE DOI 0609
BibRef

Proulx, C., Roy, S.[Sébastien],
A Maximum Flow Approach to the Volumetric Reconstruction Problem,
BMVC05(xx-yy).
HTML Version. 0509

See also Stereo Without Epipolar Lines: A Maximum-Flow Formulation. Given correspondences, search for most likely 3D consistent with images and spatial constraints. BibRef

Ki, H.[Hyunjong], Shin, J.H.[Jeong-Ho], Jung, J.[Junghoon], Lee, S.W.[Seong-Won], Paik, J.K.[Joon-Ki],
Surface Smoothing for Enhancement of 3D Data Using Curvature-Based Adaptive Regularization,
IWCIA04(488-501).
Springer DOI 0505
BibRef

Dalmasso, P., Nerino, R.,
Hierarchical 3D surface reconstruction based on radial basis functions,
3DPVT04(574-579).
IEEE DOI 0412
BibRef

Moretto, N., Frezza, R.,
Bayesian surface reconstruction,
3DPVT04(235-241).
IEEE DOI 0412
BibRef

Lomenie, N.,
A generic methodology for partitioning unorganised 3D point clouds for robotic vision,
CRV04(64-71).
IEEE DOI 0408
BibRef

Davis, J., Marschner, S.R., Garr, M., Levoy, M.,
Filling holes in complex surfaces using volumetric diffusion,
3DPVT02(428-861).
IEEE DOI 0206
BibRef

Cantzler, H., Fisher, R.B., Devy, M.,
Quality Enhancement of Reconstructed 3D Models Using Coplanarity and Constraints,
DAGM02(34 ff.).
Springer DOI 0303
BibRef

Ernst, F.E., van Overveld, C.W.A.M., Wilinski, P.,
Efficient Generation of 3-D Models out of Depth Maps,
VMV01(xx-yy).
PDF File. 0209
BibRef

Lindgren, F.[Finn],
A Stochastic Surface Modelling System,
SCIA01(O-W1). 0206
BibRef

Cootes, T.F., Thacker, N.A., Taylor, C.J.,
Automatic Model Selection by Modelling the Distribution of Residuals,
ECCV02(IV: 621 ff.).
Springer DOI 0205
BibRef

Matsumoto, T., Hata, Y., Ohta, K., Taniguchi, K.,
Three-dimensional Image Construction for Non-destructive Testing Aided by Fuzzy Logic,
ICPR00(Vol IV: 603-606).
IEEE DOI 0009
BibRef

Cañero, C., Radeva, P.I., Toledo, R., Villanueva, J.J., Mauri, J.,
3D Curve Reconstruction by Biplane Snakes,
ICPR00(Vol IV: 563-566).
IEEE DOI 0009
BibRef

Sturm, P.F.,
A Method for 3D Reconstruction of Piecewise Planar Objects from Single Panoramic Images,
OMNIVIS00(xx-yy). 0012
BibRef

Sturm, P.F., Maybank, S.J.,
A Method for Interactive 3D Reconstruction of Piercewise Planar Objects from Single Images,
BMVC99(Single View Techniques).
PDF File. BibRef 9900

Levoy, M.,
The digital Michelangelo project,
3DIM99(2-11).
IEEE DOI 9910
BibRef

Jelonek, T.[Thomas], Ferrie, F.P.[Frank P.],
From Parametric Warping to the Cooperation of Local Features and Global Models,
CVPR98(448-454).
IEEE DOI Surface blobs from range. BibRef 9800

Kaneko, T., and Yamamoto, Y.,
Volume-Preserving Surface Reconstruction from Volume Data,
ICIP97(I: 145-148).
IEEE DOI BibRef 9700

Pednault, E.P.D.[Edwin P.D.],
Some Experiments in Applying Inductive Inference Principles to Surface Reconstruction,
IJCAI89(1603-1609). Learning. BibRef 8900

Chen, D.S., Jain, R.C., and Schunck, B.G.,
Surface Reconstruction Using Neural Networks,
CVPR92(815-817).
IEEE DOI BibRef 9200

Lengyel, J., Greenberg, D.P., Yeung, A., Alderman, E., Popp, R.,
Three-Dimensional Reconstruction and Volume Rendering of Intravascular Ultrasound Slices Imaged on a Curved Arterial Path,
CVRMed95(XX-YY) BibRef 9500

Bronstein, R., Werman, M., Peleg, S.,
Surface Reconstruction from Derivatives,
ICPR92(I:391-394).
IEEE DOI BibRef 9200

Koivunen, V., and Pietikainen, M.,
Evaluating Quality of Surface Description Using Robust Methods,
ICPR92(III:214-218).
IEEE DOI BibRef 9200

Yla-Jaaski, J., Kubler, O.,
Segmentation and Analysis of 3D Volume Images,
ICPR88(II: 951-953).
IEEE DOI BibRef 8800

Liang, P., Todhunter, J.S.,
Three Dimensional Shape Reconstruction from Image by Minimum Energy Principle,
CAIA85(100-105). BibRef 8500

Garibotto, G., and Tosini, R.,
Description and Classification of 3-D Objects,
ICPR82(833-835). BibRef 8200

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


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