10.9 Shape from Two or More Properties

Bulthoff, H.H.[Heinrich H.], Mallot, H.A.[Hanspeter A.],
Integration of Depth Modules: Stereo and Shading,
JOSA-A(5), October 1988, pp. 1749-1758. BibRef 8810
Earlier:
Interaction of Different Modules in Depth Perception,
ICCV87(295-305). BibRef
And: MIT AI Memo-965, May 1987. BibRef

Bulthoff, H.H.[Heinrich H.], Fahle, M.[Manfred],
Disparity Gradients and Depth Scaling,
MIT AI Memo-1175, September 1989. BibRef 8909

Yuille, A.L., Geiger, D., Bülthoff, H.H.,
Stereo integration, mean field theory and psychophysics,
ECCV90(71-82).
WWW Version. 9004 BibRef

Kanatani, K.I.,
3D Euclidean Versus 2D Non-Euclidean: Two Approaches to 3D Recovery from Images,
PAMI(11), No. 3, March 1989, pp. 329-332.
IEEE Abstract. IEEE Top Reference.
WWW Version. BibRef 8903

Fua, P.V., and Leclerc, Y.G.,
Object-Centered Surface Reconstruction: Combining Multi-Image Stereo and Shading,
IJCV(16), No. 1, September 1995, pp. 35-56.
Postscript Version. BibRef 9509
Earlier: DARPA93(1097-1120). BibRef
And: SRI-TN-535, September 1993. Stereo for the initial shape and refinement using the shading information. It could use anything for the initial shape (DTM). See also From Multiple Stereo Views to Multiple 3-D Surfaces. BibRef

Fua, P.V.[Pascal V.], Leclerc, Y.G.[Yvan G.],
Combining Stereo, Shading, and Geometric Constraints for Surface Reconstruction from Multiple Views,
SPIE(2031), 1993, pp. 112-123. See also From Multiple Stereo Views to Multiple 3-D Surfaces. BibRef 9300

Fua, P.V., Leclerc, Y.G.,
Taking Advantage of Image-Based and Geometry-Based Constraints to Recover 3-D Surfaces,
CVIU(64), No. 1, July 1996, pp. 111-127. 9608
WWW Version.
Postscript Version. BibRef
Earlier:
Using 3-Dimensional Meshes to Combine Image-Based and Geometry-Based Constraints,
ECCV94(B:281-291).
WWW Version. BibRef

Fua, P.V., and Leclerc, Y.G.,
A Unified Framework to Recover 3-D Surfaces by Combining Image-Based and Externally-Supplied Constraints,
ARPA94(II:1469-1480). BibRef 9400

Fua, P.V.,
Combining Stereo and Monocular Information to Compute Dense Depth Maps That Preserve Depth Discontinuities,
IJCAI91(1292-1298). Correlation followed by interpolation. BibRef 9100

Lengagne, R.[Richard], Fua, P.V.[Pascal V.], Monga, O.[Olivier],
3D stereo reconstruction of human faces driven by differential constraints,
IVC(18), No. 4, March 2000, pp. 337-343.
WWW Version. 0003 BibRef

Lengagne, R.[Richard], Fua, P.V.[Pascal V.], Monga, O.[Olivier],
3D Face Modeling from Stereo and Differential Constraints,
AFGR98(148-153).
WWW Version. BibRef 9800
And:
Using differential constraints to generate a 3D face model from stereo,
ICPR98(Vol I: 637-639).
WWW Version. 9808 BibRef

Lengagne, R.[Richard], Monga, O.[Olivier], and Fua, P.V.[Pascal V.],
Using Differential Constraints to Reconstruct Complex Surfaces from Stereo,
CVPR97(1081-1086).
IEEE Abstract. IEEE Top Reference.
WWW Version. 9704 BibRef
And:
Using Differential Properties for Stereo Reconstruction of Complex Surfaces,
SCIA97(xx-yy) 9705For complex surfaces stereo is not enough. differential properties of the image provides constraints.
HTML Version. BibRef

Lengagne, R.[Richard], Tarel, J.P.[Jean-Philippe], Monga, O.[Olivier],
From 2D Images to 3D Face Geometry,
AFGR96(301-306).
WWW Version.
Postscript Version. BibRef 9600

Lengagne, R.[Richard], Fua, P.V.[Pascal V.],
Incorporating Differential Constraints in a 3D Reconstruction Process. Application to Stereo,
ICCV01(I: 573-580).
WWW Version. 0106 BibRef

Lengagne, R.[Richard], Monga, O., Fua, P.V.,
Using Crest Lines to Guide Surface Reconstruction from Stereo,
ICIP96(II: 847-850).
WWW Version. BibRef 9600
And: ICPR96(I: 9-13).
WWW Version. 9608(INRIA, F) BibRef

Samaras, D.[Dimitris], Metaxas, D.[Dimitris],
Incorporating illumination constraints in deformable models for shape from shading and light direction estimation,
PAMI(25), No. 2, February 2003, pp. 247-264.
IEEE Abstract. IEEE Top Reference.
WWW Version. 0301 BibRef
Earlier:
Coupled Lighting Direction and Shape Estimation from Single Images,
ICCV99(868-874).
WWW Version. BibRef
Earlier:
Incorporating Illumination Constraints in Deformable Models,
CVPR98(322-329).
IEEE Abstract. IEEE Top Reference. BibRef

Duan, Y.[Ye], Yang, L.[Liu], Qin, H.[Hong], Samaras, D.[Dimitris],
Shape Reconstruction from 3D and 2D Data Using PDE-Based Deformable Surfaces,
ECCV04(Vol III: 238-251).
WWW Version. 0405 BibRef

Wang, Y.[Yang], Samaras, D.[Dimitris],
Estimation of Multiple Illuminants from a Single Image of Arbitrary Known Geometry,
ECCV02(III: 272 ff.).
HTML Version. 0205Lambertian, any shape. BibRef

Samaras, D.[Dimitris], Metaxas, D.[Dimitris], Fua, P.V.[Pascal V.], Leclerc, Y.G.[Yvan G.],
Variable Albedo Surface Reconstruction from Stereo and Shape from Shading,
CVPR00(I: 480-487).
IEEE Abstract. IEEE Top Reference.
WWW Version. 0005Applied to faces. Integration of SfS and Stereo. BibRef

Lie, W.N., Yu, C.W., Chen, Y.C.,
Model-Based Recognition and Positioning of Polyhedra Using Intensity-Guided Range Sensing and Interpretation in 3-D Space,
PR(23), No. 9, 1990, pp. 983-997.
WWW Version. BibRef 9000

Lie, W.N., Yu, C.W., Chen, Y.C.,
Integrating Intensity and Range Sensing to Construct 3-D Polyhedra Representations,
CVIP92(517-536). BibRef 9200

Chen, C.S.[Chu-Song], Hung, Y.P.[Yi-Ping], Chiang, C.C., Wu, J.L.[Ja-Ling],
Range Data-Acquisition Using Color Structured Lighting and Stereo Vision,
IVC(15), No. 6, June 1997, pp. 445-456.
WWW Version. 9708 BibRef
Earlier: A1, A2, A4, Only:
Model-Based Object Recognition Using Range Images by Combining Morphological Feature Extraction and Geometric Hashing,
ICPR96(I: 565-569).
WWW Version. 9608(Academia Sinica, ROC) BibRef

Kobayashi, F., Fukuda, T., Shimojima, K.,
Shape Reconstruction System Integrating Stereo Vision and Shape from Shading with Evolutionary Programming,
JEI(7), No. 1, January 1998, pp. 8-15. 9807 BibRef

Schrater, P.R.[Paul R.], Kersten, D.[Daniel],
How Optimal Depth Cue Integration Depends on the Task,
IJCV(40), No. 1, October 2000, pp. 71-89.
WWW Version. 0101 BibRef

Fanany, M.I.[Mohamad Ivan], Kumazawa, I.[Itsuo],
A neural network for recovering 3D shape from erroneous and few depth maps of shaded images,
PRL(25), No. 4, March 2004, pp. 377-389.
WWW Version. 0402Refine polyhedral model using SfS computations. BibRef

Hernández Esteban, C.[Carlos], Schmitt, F.[Francis],
Silhouette and stereo fusion for 3D object modeling,
CVIU(96), No. 3, December 2004, pp. 367-392.
WWW Version. 0411 BibRef
Earlier: 3DIM03(46-53).
IEEE Abstract. IEEE Top Reference. 0311 BibRef
Earlier:
Multi-stereo 3D object reconstruction,
3DPVT02(159-166).
WWW Version. 0206 BibRef

Balossino, N.[Nello], Lucenteforte, M.[Maurizio], Piovano, L.[Luca], Pettiti, G.[Giuseppe], Spertino, M.[Massimiliano],
A New Stereo Algorithm Integrating Luminance, Gradient and Segmentation Informations in a Belief-Propagation Framework,
CIAP07(757-762).
WWW Version. 0709 BibRef

Ballan, L.[Luca], Cortelazzo, G.M.[Guido Maria],
Multimodal 3D Shape Recovery from Texture, Silhouette and Shadow Information,
3DPVT06(924-930).
WWW Version. 0606 Shape from Texture. Shape from Shadows. Shape from Contours. BibRef

Upright, C.[Cameron], Cobzas, D.[Dana], Jagersand, M.[Martin],
Wavelet-based Light Reconstruction from a Single Image,
CRV07(305-312).
WWW Version. 0705 BibRef

Birkbeck, N.[Neil], Cobzas, D.[Dana], Sturm, P.F.[Peter F.], Jagersand, M.[Martin],
Variational Shape and Reflectance Estimation Under Changing Light and Viewpoints,
ECCV06(I: 536-549).
WWW Version. 0608Surface evolution interleaved with reflectance estimation. BibRef

Birkbeck, N.[Neil], Cobzas, D.[Dana], Jagersand, M.[Martin],
Object Centered Stereo: Displacement Map Estimation Using Texture and Shading,
3DPVT06(790-797).
WWW Version. 0606 BibRef

Rachmielowski, A., Cobzas, D.[Dana], Jagersand, M.[Martin],
Robust SSD tracking with incremental 3D structure estimation,
CRV06(12-12).
WWW Version. 0607 BibRef

Cobzas, D.[Dana], Sturm, P.F.[Peter F.],
3D SSD Tracking with Estimated 3D Planes,
CRV05(129-134).
WWW Version. 0505 BibRef

Cobzas, D.[Dana], Jagersand, M.[Martin],
3D SSD Tracking from Uncalibrated Video,
SCVMA04(25-37).
WWW Version. 0405 BibRef

Cobzas, D.[Dana], Jagersand, M.[Martin],
Tracking and Rendering Using Dynamic Textures on Geometric Structure from Motion,
ECCV02(II: 415 ff.).
HTML Version. 0205Encode motion of the texture for reconstruction of the scene. BibRef

Bayerl, P.[Pierre], Neumann, H.[Heiko],
A Model of Motion, Stereo, and Monocular Depth Perception,
DAGM04(95).
WWW Version. 0505 BibRef

Simakov, D., Frolova, D., Basri, R.,
Dense shape reconstruction of a moving object under arbitrary, unknown lighting,
ICCV03(1202-1207).
WWW Version. 0311Known motion, Lambertian assumption. Exploit changes in illumination. BibRef

Tu, P., Mendonca, P.R.S.,
Surface reconstruction via Helmholtz reciprocity with a single image pair,
CVPR03(I: 541-547).
IEEE Abstract. IEEE Top Reference. 0307takes advantage of the symmetry resulting from alternating the positions of a camera and a light source. BibRef

Zickler, T.E., Belhumeur, P.N., Kriegman, D.J.,
Toward a stratification of Helmholtz stereopsis,
CVPR03(I: 548-555).
IEEE Abstract. IEEE Top Reference. 0307uncalibrated Helmholtz stereopsis. use of multiple cameras and light sources. BibRef

Zickler, T.E., Ho, J., Kriegman, D.J., Ponce, J., Belhumeur, P.N.,
Binocular Helmholtz Stereopsis,
ICCV03(1411-1417).
WWW Version. 0311 BibRef

Kohlberger, T.[Timo], Mémin, É.[Étienne], Schnörr, C.[Christoph],
Variational Dense Motion Estimation Using the Helmholtz Decomposition,
ScaleSpace03(432-448).
HTML Version. 0310 BibRef

Dedieu, S., Guitton, P., Schlick, C., Reuter, P.,
Reality: An Interactive Reconstruction Tool of 3-D Objects from Photographs,
VMV01(xx-yy).
PDF Version. 0209 BibRef

Lin, H.Y.[Huei-Yung], and Subbarao, M.[Murali],
A Vision System for Fast 3D Model Reconstruction,
CVPR01(II:663-668).
IEEE Abstract. IEEE Top Reference. 0110Rotational stereo and shape from focus. BibRef

Roussel, D., Bourdot, P., Gherbi, R.,
Curve and surface models to drive 3D reconstruction using stereo and shading,
3DIM99(84-90).
WWW Version. 9910 BibRef

Zhou, L.X.[Ling-Xiang], Gu, W.K.[Wei-Kang],
3D Model Reconstruction by Fusing Multiple Visual Cues,
ICPR98(Vol I: 640-642).
WWW Version. 9808 BibRef

Benzougar, A., Simon, T., Bernard, J.,
Monocular Stereovision : Depth Map from two Blurred Images,
ConferenceInternational Workshop on Stereoscopic and Three Dimensional Imaging, Santorini, Greece, 1995, pp. xx-yy.
Postscript Version. BibRef 9500

Hoshino, J., Uemura, T., Masuda, I.,
Recognition-Based Reconstruction of an Indoor Scene Using an Integration of Active and Passive Sensing Techniques,
ICCV90(568-572).
WWW Version. BibRef 9000

Henderson, T.C., Dekhil, M., Bruderlin, B., Schenkat, L., Veigel, L.,
Flat Surface Reconstruction Using Minimal Sonar Readings,
ARPA96(995-1000). Shape from Sonar. BibRef 9600

Pankanti, S., Jain, A.K.,
A Uniform Bayesian Framework for Integration,
SCV95(497-502).
IEEE Top Reference. Michigan State University. Integrate depth from stereo, perceptual grouping, shape from shading or texture BibRef 9500

Mancini, T.A., and Wolff, L.B.,
3D Shape and Light Source Location from Depth and Reflectance,
CVPR92(707-709).
IEEE Abstract. IEEE Top Reference. BibRef 9200

Zheng, J.Y., and Kishino, F.,
Verifying and Combining Different Visual Cues into a 3D Model,
CVPR92(777-780).
IEEE Abstract. IEEE Top Reference. BibRef 9200

Banerjee, S., Sastry, P.S., Venkatesh, Y.V.,
Surface Reconstruction from Disparate Shading: An Integration of Shape-from-Shading and Stereopsis,
ICPR92(I:141-144).
WWW Version. Shading and Stereo. BibRef 9200

Thompson, C.M.[Clay Matthew],
Robust Photo-Topography by Fusing Shape-from-Shading and Stereo,
MIT AI-TR-1411, February 1993.
WWW Version. BibRef 9302

Chapter on Stereo: Three Dimensional Descriptions from Two or More Views, Binocular, Trinocular continues in
Integration of Different Shape-from-X Cues .