9.3 Three-Dimensional Information from Shadows

Guo, H.L.[Heng-Li], Yachida, M.[Masahiko], Tsuji, S.[Saburo],
Three-Dimensional Measurements of Terminals of Line-Like Objects from Shadow Information,
AdvRob(1), No. 1, 1986, pp. 47-58. BibRef 8600

Yachida, M., Tsuji, S., Huang, X.Q.,
A Computer Vision System for 3-D Measurement and Recognition of Flexible Wire Using Cross-Stripe Light,
ICPR82(I: 220-222). BibRef 8200

Tsuji, S., Yachida, M., Guo, H.L.,
Wiresight: Robot Vision for Determining Three-Dimensional Geometry of Flexible Wires from Shadow Information,
ICPR84(1358-1360). BibRef 8400

Cheng, F., Thiel, K.H.,
Delimiting the Building Heights in a City from the Shadow in a Panchromatic Spot-Image. 1 Test of 42 Buildings,
JRS(16), No. 3, February 1995, pp. 409-415. BibRef 9502

Yang, D., Kender, J.R.,
Shape From Darkness Under Error,
ARPA96(1141-1148). BibRef 9600

Yang, D., and Kender, J.R.,
Shape from Shadows under Error,
DARPA93(1083-1090). Extends the following paper. BibRef 9300

Kender, J.R., and Smith, E.M.,
Shape from Darkness,
ICCV87(539-546). BibRef 8700
And: DARPA87(399-406). BibRef
Earlier:
Shape from Darkness: Deriving Surface Information from Dynamic Shadows,
AAAI-86(664-669). The shape of the object is given by the changing shadows that it casts on the surrounding objects and surfaces. This shows an iterative algorithm for computing shape. BibRef

Hatzitheodorou, M.,
The Derivation of 3-D Surface Shape from Shadows,
DARPA89(1012-1020). BibRef 8900
Earlier: Add: Kender, J.R.,
An Optimal Algorithm for the Derivation of Shape from Shadows,
DARPA88(1135-1139). BibRef
And: CVPR88(486-491).
IEEE Abstract. The changing shadow cast by the moving light gives a good indication of the shape. BibRef

Hatzitheodorou, M.,
Shape from Shadows: Theoretical and Computational Aspects,
Ph.D.Thesis (CS), 1989, BibRef 8900 ColumbiaUniv.. BibRef

Shafer, S.A.[Steven A.],
Shadows and Silhouettes in Computer Vision,
Boston: KluwerAcad. Pub, April 1985. ISBN 0-89838-167-3.
WWW Version. BibRef 8504
Earlier:
Shadow Geometry and Occluding Contours of Generalized Cylinders,
Ph.D.Thesis (CS), May, 1983, BibRef CMU-CS-TR-83-131, CMU CS Dept. Complete discussion of shadows, imaging geometry, gradient space, generalized cylinders and their shadows. BibRef

Shafer, S.A.[Steven A.], and Kanade, T.,
Using Shadows in Finding Surface Orientations,
CVGIP(22), No. 1, April 1983, pp. 145-176.
WWW Version. BibRef 8304
Earlier: DARPA82(90-102). A discussion of shadow geometry theory. See also Shadow Geometry and Occluding Contours of Generalized Cylinders. BibRef

Cavanagh, P., and Leclerc, Y.G.,
Shape from shadows,
JEP:HPP(15), No. 1, 1989, pp. 3-27. BibRef 8900

Myers, R., Hancock, E.R.,
Genetic Algorithm Parameter Sets for Line Labeling,
PRL(18), No. 11-13, November 1997, pp. 1363-1371. 9806
BibRef

Myers, R.[Richard], Hancock, E.R.[Edwin R.],
Genetic algorithms for ambiguous labelling problems,
PR(33), No. 4, April 2000, pp. 685-704.
WWW Version. 0002
BibRef

Bouguet, J.Y.[Jean-Yves], Perona, P.[Pietro],
3D Photography Using Shadows in Dual-Space Geometry,
IJCV(35), No. 2, November-December 1999, pp. 129-149.
WWW Version. BibRef 9911

Bouguet, J.Y.[Jean-Yves], Weber, M.[Markus], Perona, P.[Pietro],
What Do Planar Shadows Tell Us About Scene Geometry?,
CVPR99(I: 514-520).
IEEE Abstract.
IEEE DOI Link BibRef 9900

Mignotte, M., Collet, C., Pérez, P., Bouthemy, P.,
Hybrid Genetic Optimization and Statistical Model-Based Approach for the Classification of Shadow Shapes in Sonar Imagery,
PAMI(22), No. 2, February 2000, pp. 129-141.
IEEE Abstract.
IEEE DOI Link 0003
Sonar. Applied to sea floor images. See also Sonar Image Segmentation Using an Unsupervised Hierarchical MRF Model. See also Markov Random Field and Fuzzy Logic Modeling in Sonar Imagery: Application to the Classification of Underwater Floor. BibRef

Clark, J.J.[James J.], Wang, L.[Lei],
Active Shape-from-Shadows with Controlled Illuminant Trajectories,
IJCV(43), No. 3, July-August 2001, pp. 141-166.
WWW Version. 0108
BibRef
Earlier: A2, A1:
Active shape and depth extraction from shadow images,
ICIP94(I: 550-553).
IEEE DOI Link 9411
BibRef

Kriegman, D.J.[David J.], Belhumeur, P.N.[Peter N.],
What shadows reveal about object structure,
JOSA-A(18), No. 8, August 2001, pp. 1804-1813.
WWW Version.
PDF Version. 0109
BibRef
Earlier: ECCV98(II: 399).
WWW Version.
Postscript Version. The shadow boundaries change as the light source moves. Generalized bas relief transform. BibRef

Hubona, G.S., Shirah, G.W., Jennings, D.K.,
The Effects of Cast Shadows and Stereopsis on Performing Computer-Generated Spatial Tasks,
SMC-A(34), No. 4, July 2004, pp. 483-493.
IEEE Abstract. 0407
Graphics. How cast shadows give cues. BibRef

Yu, Y.Z.[Yi-Zhou], Chang, J.T.[Johnny T.],
Shadow Graphs and 3D Texture Reconstruction,
IJCV(62), No. 1-2, April-May 2005, pp. 35-60.
WWW Version.
WWW Version. 0411
BibRef
Earlier:
Shadow Graphs and Surface Reconstruction,
ECCV02(II: 31 ff.).
HTML Version. 0205
Three dimensional details from shadows. Combine shading and shadow constraints. BibRef

Wöhler, C.[Christian], Hafezi, K.[Kia],
A general framework for three-dimensional surface reconstruction by self-consistent fusion of shading and shadow features,
PR(38), No. 7, July 2005, pp. 965-983.
WWW Version. 0505
BibRef

Herbort, S.[Steffen], Grumpe, A.[Arne], Wohler, C.[Christian],
Reconstruction of non-Lambertian surfaces by fusion of Shape from Shading and active range scanning,
ICIP11(17-20).
IEEE DOI Link 1201
BibRef

Wohler, C.,
3d surface reconstruction by self-consistent fusion of shading and shadow features,
ICPR04(II: 204-207).
IEEE DOI Link 0409
BibRef

Mei, X.[Xue], Ling, H.B.[Hai-Bin], Jacobs, D.W.[David W.],
Illumination Recovery From Image With Cast Shadows Via Sparse Representation,
IP(20), No. 8, August 2011, pp. 2366-2377.
IEEE DOI Link 1108
BibRef
Earlier:
Sparse representation of cast shadows via L1-regularized least squares,
ICCV09(583-590).
IEEE DOI Link 0909
See also Robust Visual Tracking and Vehicle Classification via Sparse Representation. BibRef

Jacobs, N.[Nathan], Miskell, K.[Kylia], Pless, R.[Robert],
Webcam geo-localization using aggregate light levels,
WACV11(132-138).
IEEE DOI Link 1101
Static camera, long-term time lapse imagery. Location based on sun angles. Not so much shadow as sun angle. BibRef

Jacobs, N.[Nathan], Bies, B.[Brian], Pless, R.[Robert],
Using cloud shadows to infer scene structure and camera calibration,
CVPR10(1102-1109).
IEEE DOI Link Video of talk:
WWW Version. 1006
BibRef

Hogan, J.[James], Smith, W.A.P.[William A.P.],
Refinement of digital elevation models from shadowing cues,
CVPR10(1181-1188).
IEEE DOI Link 1006
BibRef

Okabe, T.[Takahiro], Sato, I.[Imari], Sato, Y.[Yoichi],
Attached shadow coding: Estimating surface normals from shadows under unknown reflectance and lighting conditions,
ICCV09(1693-1700).
IEEE DOI Link 0909
BibRef

Caspi, Y.[Yaron], Werman, M.[Michael],
Vertical Parallax from Moving Shadows,
CVPR06(II: 2309-2315).
IEEE DOI Link 0606
BibRef

Atty, L.[Lionel], Holzschuch, N.[Nicolas], Lapierre, M.[Marc], Hasenfratz, J.M.[Jean-Marc], Hansen, C.[Charles], Sillion, F.X.[François X.],
Soft Shadow Maps: Efficient Sampling of Light Source Visibility,
INRIARR-5750, 2005.
HTML Version. BibRef 0500

Reid, I.D., North, A.,
3d Trajectories from a Single Viewpoint using Shadows,
BMVC98(xx-yy). BibRef 9800

Daum, M., Dudek, G.,
On 3-D Surface Reconstruction Using Shape from Shadows,
CVPR98(461-468).
IEEE Abstract.
Postscript Version. BibRef 9800

Rao, K.[Kashi],
Shape Description of Curved 3-D Objects for Aerial Surveillance,
ARPA96(1065-1076). BibRef 9600
Earlier:
Curved 3-D Object Description from Single Aerial Images Using Shadows,
ARPA94(II:1351-1366). Apply the generalized cylinder extraction to storage tanks. BibRef

Thompson, W.B., Checky, M.T., Kaemmerer, W.F.,
Shadow Stereo-Locating Object Boundaries Using Shadows,
AAAI-87(761-766). BibRef 8700

Chapter on 3-D Shape from X -- Shading, Textures, Lasers, Structured Light, Focus, Line Drawings continues in
Shape from Multiple Light Sources, Photometric Stereo .