What shadows reveal about object structure.

In a scene observed from a fixed viewpoint, the set of shadow boundaries in an image changes as a point light source (nearby or at infinity) assumes different locations. We show that for any finite set of point light sources illuminating an object viewed under either orthographic or perspective projection, there is an equivalence class of object shapes having the same set of shadows. Members of this equivalence class differ by a four-parameter family of projective transformations, and the shadows of a transformed object are identical when the same transformation is applied to the light source locations. Under orthographic projection, this family is the generalized bas-relief (GBR) transformation, and we show that the GBR transformation is the only family of transformations of an object’s shape for which the complete set of imaged shadows is identical. Finally, we show that given multiple images under differing and unknown light source directions, it is possible to reconstruct both an object’s surface and the light source locations up to this family of transformations from the shadows alone.

[1]  O. Faugeras Stratification of three-dimensional vision: projective, affine, and metric representations , 1995 .

[2]  R. Bruce Irvin,et al.  Methods for exploiting the relationship between buildings and their shadows in aerial imagery , 1989, IEEE Trans. Syst. Man Cybern..

[3]  Lawrence B. Wolff,et al.  Surface Curvature and Shape Reconstruction from Unknown Multiple Illumination and Integrability , 1997, Comput. Vis. Image Underst..

[4]  Claire-Lise Mottaz Jiang,et al.  Shadow segmentation and classification in a constrained environment , 1994 .

[5]  Ronen Basri,et al.  Recognition by Linear Combinations of Models , 1991, IEEE Trans. Pattern Anal. Mach. Intell..

[6]  R. Bruce Irvin,et al.  Methods For Exploiting The Relationship Between Buildings And Their Shadows In Aerial Imagery , 1989, Photonics West - Lasers and Applications in Science and Engineering.

[7]  Murray H. Loew,et al.  The Entry-Exit Method of Shadow Boundary Segmentation , 1987, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[8]  J J Koenderink,et al.  Affine structure from motion. , 1991, Journal of the Optical Society of America. A, Optics and image science.

[9]  F. Cheng,et al.  Delimiting the building heights in a city from the shadow in a panchromatic spot-image , 1995 .

[10]  Takeo Kanade,et al.  Using shadows in finding surface orientations , 1983, Comput. Vis. Graph. Image Process..