10.6.3 Representations from Orthogonal or Multiple Views

Chapter Contents (Back)
Orthogonal Views.

Chang, S.K.[Shi-Kuo], Wang, Y.R.,
Three-dimensional object reconstruction from orthogonal projections,
PR(7), No. 4, December 1975, pp. 167-176.
WWW Link. 0309
BibRef

Lafue, G.,
Recognition of Three-Dimensional Objects from Orthographic Views,
Computer Graphics(10), No. 2, 1976, pp. 103-108. BibRef 7600

Martin, W.N.[Worthy N.], and Aggarwal, J.K.,
Volumetric Descriptions of Objects from Multiple Views,
PAMI(5), No. 2, March 1983, pp. 150-158. Generate the 3-D description from projections taken from multiple views. See below. See also Computer Analysis of Dynamic Scenes Containing Curvilinear Figures. BibRef 8303

Martin, W.N., and Aggarwal, J.K.,
Volumetric Descriptions from Dynamic Scenes,
PRL(1), No. 2, 1982, 107-114. BibRef 8200

Jones, B.M., Saraga, P.,
The Application of Parallel Projections to Three-Dimensional Object Location in Industrial Assembly,
PR(14), No. 1-6, 1981, pp. 163-171.
WWW Link. BibRef 8100

Rossi, D.J., Willsky, A.S.,
Reconstruction from Projections Based on Detection and Estimation of Objects -- Parts I and II: Performance Analysis and Robustness Analysis,
ASSP(32), 1984, pp. 886-906. BibRef 8400

Sakurai, H., Gossard, D.C.,
Solid Model Input Through Orthographic Views,
Computer Graphics(17), No. 3, 1983, pp. 243-252. BibRef 8300

Kuba, A.,
The Reconstruction of Two-Directionally Connected Binary Patterns from Their Two Orthogonal Projections,
CVGIP(27), No. 3, September 1984, pp. 249-265.
WWW Link. BibRef 8409

Kemperman, J.H.B., Kuba, A.,
Reconstruction of 2-Valued Matrices from Their 2 Projections,
IJIST(9), No. 2-3, 1998, pp. 110-117. 9805
BibRef

Tamura, S., Nakano, S., Matsumoto, M., Shimazu, T., Fujiwara, M., Matsuyama, T.,
Three-Dimensional Reconstruction of Echocardiograms Based on Orthogonal Sections,
PR(17), No. 6, 1984, pp. Page 678.
WWW Link. BibRef 8400
Earlier: PR(18), No. 2, 1985, pp. 115-124.
WWW Link. BibRef
Earlier: ICPR84(27-29). BibRef

Harauz, G., Gordon, R., and van Heel, M.,
Oblique Sampling of Projections for Direct Three-Dimensional Reconstruction,
CVGIP(38), No. 1, April 1987, pp. 81-89.
WWW Link. BibRef 8704

Sun, Y.[Ying], Liu, I.[Iching], Grady, J.K.[John K.],
Reconstruction of 3-D Binary Tree-Like Structures from Three Mutually Orthogonal Projections,
PAMI(16), No. 3, March 1994, pp. 241-248.
IEEE Abstract.
IEEE DOI Intended for reconstructing blood vessels from angiograms. BibRef 9403

Grady, J.K.[John K.],
Method and apparatus for three-dimensional video signals,
US_Patent5,333,165, Jul 26, 1994
WWW Link. 3 orthogonal views BibRef 9407

Liu, C.H., and Tsai, W.H.,
3D Curved Object Recognition from Multiple 2D Camera Views,
CVGIP(50), No. 2, May 1990, pp. 177-187.
WWW Link. Match the top and side views to preselected views (object on a turntable). BibRef 9005

Chang, K.C., Tsai, W.H.,
3-D Object Inspection from Multiple Camera Views,
PRAI(1), 1987, pp. 85-102. BibRef 8700

Braccini, C., Cicconi, P., Grattarola, A.A., and Zappatore, S.,
Shape from Occluding Contours: A Regularization Method,
VF91(67-77). Generate the 3-D shape of the object using a large number of contour views of the object. BibRef 9100

Hong, T.H., and Shneier, M.O.,
Describing a Robot's Workspace Using a Sequence of Views from a Moving Camera,
PAMI(7), No. 6, November 1985, pp. 721-726. See also Extracting Compact Objects Using Linked Pyramids. BibRef 8511
Earlier:
Incrementally Constructing a Spatial Representation Using a Moving Camera,
CVPR85(591-596). (National Bureau of Standards) Generate an oct-tree representation from a sequence of views. Intersection of cones to approximate the shape. BibRef

Laurentini, A.,
The Visual hull Concept for Silhouette-Based Image Understanding,
PAMI(16), No. 2, February 1994, pp. 150-162.
IEEE Abstract.
IEEE DOI BibRef 9402
Earlier:
Inferring the Shape of the Real Object from the Object Reconstructed by Volume Intersection,
CVPR93(280-285).
IEEE DOI BibRef
And:
The Visual Hull Of Solids Of Revolution,
ICPR92(I:720-724).
IEEE DOI Intersect volumes of backprojected silhouettes. BibRef

Laurentini, A.,
The Visual Hull of Curved Objects,
ICCV99(356-361).
IEEE DOI BibRef 9900

Bottino, A.[Andrea], Laurentini, A.[Aldo],
The Visual Hull of Smooth Curved Objects,
PAMI(26), No. 12, December 2004, pp. 1622-1632.
IEEE Abstract. 0411
BibRef

Bottino, A.[Andrea], Laurentini, A.[Aldo],
The Visual Hull of Piecewise Smooth Objects,
CVIU(110), No. 1, April 2008, pp. 7-18.
WWW Link. 0711
BibRef
Earlier: BMVC04(xx-yy).
HTML Version. 0508
Relate shape of object to silhouettes or shadows. From surfaces that partition the aspect graph of the object. Shape-from-silhouettes; Visual hull; Piecewise smooth objects; CAD objects See also Towards an Iterative Algorithm for the Optimal Boundary Coverage of a 3D Environment. BibRef

Srinivasan, V., Han, Y.K., Ong, S.H.,
Image reconstruction by a Hopfield neural network,
IVC(11), No. 5, June 1993, pp. 278-282.
WWW Link. 0401
reconstruction of cross-sectional images from projections. BibRef

Watanabe, T., Tashiro, A., Fujii, S.,
Estimation of 3-Dimensional Objects from Orthographic Views with Inconsistencies,
Computers&Graphics(19), No. 6, November-December 1995, pp. 815-829. BibRef 9511

Dori, D., Weiss, M.,
A Scheme for 3D Object Reconstruction from Dimensioned Orthographic Views,
EngAAI(9), No. 1, February 1996, pp. 53-64. BibRef 9602

Chen, Z., Perng, D.B.,
Automatic Reconstruction of 3D Solid Objects from 2D Orthographic Views,
PR(21), No. 5, 1988, pp. 439-449.
WWW Link. BibRef 8800

Tamura, S., Yata, K., Matsumoto, M.,
Plan-Based Boundary Extraction and 3-D Reconstruction for Orthogonal 2-D Echocardiography,
PR(20), No. 2, 1987, pp. 155-162.
WWW Link. BibRef 8700

Walker, S.A., Fantini, S., Gratton, E.,
Image Reconstruction by Backprojection from Frequency-Domain Optical Measurements in Highly Scattering Media,
AppOpt(36), No. 1, January 1 1997, pp. 170-179.
DOI Link 9702
BibRef

Ip, H.H.S., and Yin, L.,
Constructing a 3D Individualized Head Model from Two Orthogonal Views,
VC(12), 1996, pp. 254-266. BibRef 9600

Garza, G., Pineda, L.,
Synthesis of Solid Models of Polyhedra from Their Orthogonal Views Using Logical Representations,
ExSysApp(14), No. 1-2, January/February 1998, pp. 91-108. 9805
BibRef

Eggert, D.W.[David W.], Fitzgibbon, A.W.[Andrew W.], Fisher, R.B.[Robert B.],
Simultaneous Registration of Multiple Range Views for Use in Reverse Engineering of CAD Models,
CVIU(69), No. 3, March 1998, pp. 253-272. BibRef 9803 Edinburgh
DOI Link BibRef
Earlier: A1, A3, A2:
Simultaneous Registration of Multiple Range Views for Use in Reverse Engineering,
ICPR96(I: 243-247).
IEEE DOI 9608
BibRef
And: DAINo. 804, May 1996. Uses the Iterative Closest Point algorithm. BibRef

Marugame, A.[Atsushi], Katto, J.[Jiro], Ohta, M.[Mutsumi],
Structure Recovery with Multiple Cameras from Scaled Orthographic and Perspective Views,
PAMI(21), No. 7, July 1999, pp. 628-633.
IEEE Abstract.
IEEE DOI BibRef 9907
Earlier:
Structure Recovery from Scaled Orthographic and Perspective Views,
ICIP96(II: 851-854).
IEEE DOI Seven point correspondences. (3 and 4 views, 1 scaled orthographic plus other perspective) BibRef

Marugame, A., and Ohta, M.,
Robust Object Extraction Method Using Three Cameras,
ICIP97(III: 276-279).
IEEE DOI BibRef 9700

Katto, J.[Jiro], Ohta, M.[Mutsumi],
Novel Algorithms for Object Extraction Using Multiple Camera Inputs,
ICIP96(II: 863-866).
IEEE DOI BibRef 9600

Marugame, A., Yamada, A., Ohta, M.,
Focused Object Extraction with Multiple Cameras,
CirSysVideo(10), No. 4, June 2000, pp. 530-540.
IEEE Top Reference. 0006
BibRef

Bresler, Y., Fessler, J.A., Macovski, A.,
Model-based estimation techniques for 3-D reconstruction from projections,
MVA(1), No. 2, 1988, pp. 115-126. BibRef 8800

Bresler, Y., Macovski, A.,
A Hierarchical Bayesian Approach to Reconstruction from Projections of a Multiple Object 3-D Scene,
ICPR84(455-457). BibRef 8400

Bresler, Y., Fessler, J.A., and Macovski, A.,
A Bayesian Approach to Reconstruction from Incomplete Projections of a Multiple Object 3D Domain,
PAMI(11), No. 8, August 1989, pp. 840-858.
IEEE Abstract.
IEEE DOI BibRef 8908

Quan, L.[Long], Gros, P.[Patrick], Mohr, R.[Roger],
Invariants of a Pair of Conics Revisited,
IVC(10), No. 5, June 1992, pp. 319-323.
WWW Link. BibRef 9206
Earlier: BMVC91(71-77).
PDF File. 9109
See also Invariants of 6 Points and Projective Reconstruction from 3 Uncalibrated Images. BibRef

Quan, L.[Long],
Two-Way Ambiguity in 2D Projective Reconstruction from Three Uncalibrated 1D Images,
PAMI(23), No. 2, February 2001, pp. 212-216.
IEEE Abstract.
IEEE DOI 0102
BibRef
Earlier:
Inherent Two-Way Ambiguity in 2D Projective Reconstruction from Three Uncalibrated 1D Images,
ICCV99(344-349).
IEEE DOI 2 possible reconstructions, related by a quadratic transformation with the camera centers. Unique 2-D is possible only if the 3 cameras are aligned. See also Invariants of 6 Points and Projective Reconstruction from 3 Uncalibrated Images. See also Conic Reconstruction and Correspondence from Two Views. BibRef

Gros, P., Quan, L.[Long],
3D Projective Invariants from Two Images,
SPIE(2031), 1993, pp. 75-86. BibRef 9300

Gros, P.,
Matching And Clustering: Two Steps Toward Automatic Object Modeling in Computer Vision,
IJRR(14), No. 6, December 1995, pp. 633-642. BibRef 9512
Earlier:
Matching and Clustering: Two Steps Towards Automatic Objective Model Generation,
AAAI-MLCV93(xx-yy). BibRef

Zhang, R., Shah, M.,
Iterative Shape Recovery From Multiple Images,
IVC(15), No. 11, November 1997, pp. 801-814.
WWW Link. 9712
See also Shape from Intensity Gradient. BibRef

Shum, H.Y.[Heung-Yeung], Hebert, M.[Martial], Ikeuchi, K.[Katsushi], Reddy, R.[Raj],
An Integral Approach to Free-Form Object Modeling,
PAMI(19), No. 12, December 1997, pp. 1366-1370.
IEEE Abstract.
IEEE DOI 9712
BibRef
Earlier: with Free-Formed in title. ICCV95(870-875).
IEEE DOI BibRef
And: CMU-CS-TR-95-135. May 1995. Include all data from all views at one time rather than a sequential merging of the results. BibRef

Shum, H.Y.[Heung-Yeung],
Modeling from Reality: Representation and Integration,
Ph.D.Thesis, CMU, July 1996. BibRef 9607

Shum, H.Y.[Heung-Yeung], Hebert, M.[Martial], Ikeuchi, K.[Katsushi],
On 3D Shape Synthesis,
ORCV96(131). 9611
BibRef
Earlier: ARPA96(1103-1112). BibRef
And: CMU-CS-TR-95-213, November 1995.
PS File. BibRef

Shum, H.Y., Hebert, M., and Ikeuchi, K.,
On 3D Shape Similarity,
CVPR96(526-531).
IEEE Abstract.
IEEE DOI BibRef 9600
And: CMU-CS-TR-95-212, November 1995.
PS File. BibRef

Yemez, Y., Schmitt, F.[Francis],
3D reconstruction of real objects with high resolution shape and texture,
IVC(22), No. 13, 1 November 2004, pp. 1137-1153.
WWW Link. 0410
2-D images from a calibrated camera with object rotation. BibRef

Schmitt, F.[Francis], Yemez, Y.,
3D color object reconstruction from 2D image sequences,
ICIP99(III:65-69).
IEEE DOI BibRef 9900

Wan, C.[Cheng], Sato, J.[Jun],
Multiple View Geometry for Curvilinear Motion Cameras,
IEICE(E94-D), No. 7, July 2011, pp. 1479-1487.
WWW Link. 1107
BibRef
Earlier:
Multiple View Geometry for Non-rigid Motions Viewed from Curvilinear Motion Projective Cameras,
ICPR10(181-184).
IEEE DOI 1008
BibRef

Wan, C.[Cheng], Kozuka, K.[Kazuki], Sato, J.[Jun],
Multiple View Geometry for Non-rigid Motions Viewed from Translational Cameras,
ACCV07(II: 342-352).
Springer DOI 0711
BibRef

Sato, J.[Jun],
Recovering Multiple View Geometry from Mutual Projections of Multiple Cameras,
IJCV(66), No. 2, Feburary 2006, pp. 123-140.
Springer DOI 0604
BibRef

Wan, C.[Cheng], Sato, J.[Jun],
Multiple View Geometry under Projective Projection in Space-Time,
IEICE(E91-D), No. 9, September 2008, pp. 2353-2359.
DOI Link 0804
BibRef

Wan, C.[Cheng], Sato, J.[Jun],
Computing Spatio-Temporal Multiple View Geometry from Mutual Projections of Multiple Cameras,
IEICE(E93-D), No. 9, September 2010, pp. 2602-2613.
WWW Link. 1003
BibRef
Earlier:
Computing multiple view geometry in space-time from mutual projections of multiple cameras,
ICPR08(1-4).
IEEE DOI 0812
BibRef

Hayakawa, K.[Kazutaka], Sato, J.[Jun],
Multiple View Geometry in the Space-Time,
ACCV06(II:437-446).
Springer DOI 0601
For analyzing non-rigid motions with moving cameras. BibRef

Ito, M., Sugimura, T., Sato, J.,
Recovering structures and motions from mutual projection of cameras,
ICPR02(III: 676-679).
IEEE DOI 0211
BibRef

Lee, J., Doerschuk, P.C., Johnson, J.E.,
Exact Reduced-Complexity Maximum Likelihood Reconstruction of Multiple 3-D Objects From Unlabeled Unoriented 2-D Projections and Electron Microscopy of Viruses,
IP(16), No. 12, December 2007, pp. 2865-2878.
IEEE DOI 0711
BibRef

Zheng, Y.[Yili], Wang, Q.[Qiu], Doerschuk, P.C.[Peter C.],
Three-dimensional reconstruction of the statistics of heterogeneous objects from a collection of one projection image of each object,
JOSA-A(29), No. 6, June 2012, pp. 959-970 2012.
WWW Link. 1206
BibRef

Chen, Q.[Qian], Medioni, G.[Gerard],
Three-dimensional modeling based on photographic images,
US_Patent7,224,357, May 29, 2007
WWW Link. BibRef 0705

Chen, G.Q.[G. Qian], Medioni, G.[Gerard],
Efficient Iterative Solutions to M-View Projective Reconstruction Problem,
CVPR99(II: 55-61).
IEEE Abstract.
IEEE DOI BibRef 9900 USC Computer Vision BibRef

Azevedo, T.C.S.[Teresa C. S.], Tavares, J.M.R.S.[João Manuel R. S.], Vaz, M.A.P.[Mário A. P.],
External Anatomical Shapes Reconstruction from Turntable Image Sequences using a Single off-the-shelf Camera,
ELCVIA(7), No. 2, 2008, pp. 22-34.
WWW Link. 0806
BibRef

Hild, M.[Michael], Nishijima, K.[Kazuyuki],
Reconstruction of 3D Space Structure with a Rotational Imaging System,
IJIG(2), No. 2, April 2002, pp. 269-285. 0204
BibRef

Lempitsky, V.[Victor], Rother, C.[Carsten], Roth, S.[Stefan], Blake, A.[Andrew],
Fusion Moves for Markov Random Field Optimization,
PAMI(32), No. 8, August 2010, pp. 1392-1405.
IEEE DOI 1007
Graph cuts for MRF with multiple labels. Use to combine pairs of sub-optimal labels. See also FusionFlow: Discrete-continuous optimization for optical flow estimation. BibRef

Lempitsky, V.[Victor], Rother, C.[Carsten], Blake, A.[Andrew],
LogCut: Efficient Graph Cut Optimization for Markov Random Fields,
ICCV07(1-8).
IEEE DOI 0710
BibRef

Lempitsky, V.[Victor],
Surface extraction from binary volumes with higher-order smoothness,
CVPR10(1197-1204).
IEEE DOI 1006
BibRef

Lempitsky, V.[Victor], Boykov, Y.Y.[Yuri Y.],
Global Optimization for Shape Fitting,
CVPR07(1-8).
IEEE DOI 0706
BibRef

Boykov, Y.Y., Lempitsky, V.,
From Photohulls to Photoflux Optimization,
BMVC06(III:1149).
PDF File. 0609
BibRef

Lempitsky, V., Boykov, Y.Y., Ivanov, D.,
Oriented Visibility for Multiview Reconstruction,
ECCV06(III: 226-238).
Springer DOI 0608
Estimate visibility based on position and orientation. BibRef

Aliakbarpour, H.[Hadi], Dias, J.[Jorge],
Three-dimensional reconstruction based on multiple virtual planes by using fusion-based camera network,
IET-CV(6), No. 4, 2012, pp. 355-369.
DOI Link 1209
BibRef
Earlier:
IMU-Aided 3D Reconstruction Based on Multiple Virtual Planes,
DICTA10(474-479).
IEEE DOI 1012
Inertial Measurement Unit for virtual camera positions. BibRef

Cai, J., Miklavcic, S.,
Automated extraction of three-dimensional cereal plant structures from two-dimensional orthographic images,
IET-IPR(6), No. 6, 2012, pp. 687-696.
DOI Link 1210
BibRef

Svane, A.M.[Anne Marie],
On Multigrid Convergence of Local Algorithms for Intrinsic Volumes,
JMIV(49), No. 1, May 2014, pp. 148-172.
Springer DOI 1404
Limits on 2D data to 3D.? BibRef

Svane, A.M.[Anne Marie],
Estimation of Intrinsic Volumes from Digital Grey-Scale Images,
JMIV(49), No. 2, June 2014, pp. 352-376.
WWW Link. 1405
BibRef


Shan, Q.[Qi], Curless, B.[Brian], Furukawa, Y.[Yasutaka], Hernandez, C.[Carlos], Seitz, S.M.[Steven M.],
Occluding Contours for Multi-view Stereo,
CVPR14(4002-4009)
IEEE DOI 1409
3D Reconstruction; Image Contours; Multi-View Stereo BibRef

Freeman, G.J., Caramanis, C., Bovik, A.C.,
Targeted L1L2: Naturalness-constrained image recovery from random projections,
Southwest14(97-100)
IEEE DOI 1406
compressed sensing BibRef

Murakami, Y.[Yohei], Endo, T.[Takeshi], Ito, Y.[Yoshimichi], Babaguchi, N.[Noboru],
Depth-Estimation-Free Condition for Projective Factorization and Its Application to 3D Reconstruction,
ACCV12(IV:150-162).
Springer DOI 1304
BibRef

Lan, R.[Rushi], Yang, J.W.[Jian-Wei],
Orthogonal projection transform with application to shape description,
ICIP10(281-284).
IEEE DOI 1009
BibRef

Kuhn, S.[Stefan], Henrich, D.[Dominik],
Multi-view Reconstruction of Unknown Objects within a Known Environment,
ISVC09(I: 784-795).
Springer DOI 0911
BibRef

Chesi, G., Hung, Y.S.,
EVP-Based Multiple-View Triangulation,
ISVC10(III: 109-118).
Springer DOI 1011
BibRef

Castillo-Castaneda, E.[Eduardo], Turchiuli, C.[Christelle],
Volume Estimation of Small Particles Using Three-Dimensional Reconstruction from Multiple Views,
ICISP08(218-225).
Springer DOI 0807
BibRef

Chen, Y.Q.A.[Yun-Qi-Ang], Cheng, L.[Lin], Fang, T.[Tong], Raupach, R.[Rainer],
A Multi-Image Restoration Method for Image Reconstruction from Projections,
ICCV07(1-8).
IEEE DOI 0710
BibRef

Mizuno, K.[Kazunori], Nishihara, S.[Seiichi],
Constraint-Based Prototyping for Understanding Three Orthographic Views,
ICPR06(II: 1090-1093).
IEEE DOI 0609
BibRef

Wu, X.J.[Xiao-Jun], Takizawa, O.[Osamu], Matsuyama, T.[Takashi],
Parallel Pipeline Volume Intersection for Real-Time 3D Shape Reconstruction on a PC Cluster,
CVS06(4).
IEEE DOI 0602
BibRef

Xi, L.[Li],
3D Orthographic Reconstruction Based on Robust Factorization Method with Outliers,
ICIP04(III: 1927-1930).
IEEE DOI 0505
BibRef

Appel, M., Navab, N.,
3D reconstruction from co-registered orthographic and perspective images: theoretical framework and applications,
ICPR02(IV: 21-26).
IEEE DOI 0211
BibRef

Ning, J., McClean, S., Cranley, K.,
3D reconstruction from two orthogonal views using simulated annealing approach,
3DIM01(309-313).
IEEE DOI 0106
BibRef

Carr, J.C.[Jonathan C.], Fright, W.R.[W. Richard], Gee, A.H.[Andrew H.], Prager, R.W.[Richard W.], and Dalton, K.J.[Kevin J.],
3D Shape Reconstruction Using Volume Intersection Techniques,
ICCV98(1095-1100).
IEEE DOI BibRef 9800

Bro-Nielsen, M., Suzuki, K., and Watanabe, M.,
3D Modeling Method from Occluding Contours by Geometric Primitives,
ACCV93(xx-yy).
HTML Version. Register the occluding contour from a known motion around the object to get the volume. Generates a polygonal surface without the voxel representation. BibRef 9300

Ade, F., Peter, M., and Ilg, M.,
Gripping Information for a Robot from Silhouettes,
CVPR91(716-717).
IEEE DOI BibRef 9100
And: TR-119, ETHZurich, November 1990. BibRef

Lehr, C., Liedtke, C.E.,
3D Reconstruction of Volume Defects from Few X-Ray Images,
CAIP99(275-284).
Springer DOI 9909
BibRef

Liedtke, C.E., Grau, O., Growe, S.,
Use of explicit knowledge for the reconstruction of 3-D object geometry,
CAIP95(580-587).
Springer DOI 9509
BibRef

Liedtke, C.E., Busch, H., and Koch, R.,
Shape Adaptation for Modelling of 3D Objects in Natural Scenes,
CVPR91(704-705).
IEEE DOI Series of views, e.g. 12. BibRef 9100

Andersen, J.D.[Jens Damgaard],
Combinatorial characterization of perspective projections from polyhedral object scenes,
ECCV90(557-562).
Springer DOI 9004
BibRef

Blume, W.M., Sankar, P.V., Sklansky, J.,
Reconstructing a Network of Three-Dimensional Curves from a Small Number of Projections,
ICPR84(1292-1294). BibRef 8400

Bocquet, J., and Tichkiewitch, S.,
An 'Expert System' for Reconstruction of Mechanical Objects from Projections,
ICPR82(491-496). BibRef 8200

Chapter on Stereo: Three Dimensional Descriptions from Two or More Views, Binocular, Trinocular continues in
Shape Descriptions Computed from a Set of Slices .


Last update:Sep 25, 2017 at 16:36:46