Image analysis – Applications – 3-d or stereo imaging analysis
Patent
1996-03-20
1999-12-28
Boudreau, Leo H.
Image analysis
Applications
3-d or stereo imaging analysis
382294, 382300, 345419, 348 50, G06T 1500
Patent
active
060091886
ABSTRACT:
A computer-based method and system for digital 3-dimensional imaging of an object which allows for viewing images of the object from arbitrary vantage points. The system, referred to as the Lumigraph system, collects a complete appearance of either a synthetic or real object (or a scene), stores a representation of the appearance, and uses the representation to render images of the object from any vantage point. The appearance of an object is a collection of light rays that emanate from the object in all directions. The system stores the representation of the appearance as a set of coefficients of a 4-dimensional function, referred to as the Lumigraph function. From the Lumigraph function with these coefficients, the Lumigraph system can generate 2-dimensional images of the object from any vantage point. The Lumigraph system generates an image by evaluating the Lumigraph function to identify the intensity values of light rays that would emanate from the object to form the image. The Lumigraph system then combines these intensity values to form the image.
REFERENCES:
patent: 4831659 (1989-05-01), Miyaoka et al.
patent: 4928250 (1990-05-01), Greenberg et al.
patent: 5228098 (1993-07-01), Crinon et al.
patent: 5467404 (1995-11-01), Vuylsteke
patent: 5675377 (1997-10-01), Gibas
patent: 5717782 (1998-02-01), Denneau, Jr.
patent: 5727078 (1998-03-01), Chupeau
patent: 5850352 (1998-12-01), Moezzi et al.
patent: 5870502 (1999-02-01), Bonneau et al.
patent: 5905500 (1999-05-01), Kamen et al.
Edward H. Adelson & John Y. A. Wang, Single Lens Stereo with a Plenoptic Camera, IEEE Transactions on Pattern-Analysis & Machine Vision, vol. 14, Issue 2, Feb. 1992.
Steven J. Gortler et al, The Lumigraph, SIGGRAPH 96, Aug. 7, 1996, pp. 43-54, Aug. 7, 1996.
Leonard McMillan & Gary Bishop, Plenoptic Modeling: An Image-Based Rendering System, SIGGRAPH '95, Aug. 9, 1995, pp. 39-46, Aug. 9, 1995.
Edward H. Adelson & James R. Bergen, The Plenoptic Function & The Elements of Early Vision, Computational Models of Visual Processing, pp. 3-20, MIT Press, 1991.
Akeley, Kurt, "RealityEngine Graphics," Computer Graphics Proceedings, Annual Conference Series, 1993, pp. 109-116.
Bacchelli-Montefusco, Laura et al., "Using Interactive Graphics for Fitting Surfaces to Scattered Data," IEEE Computer Graphics and Applications, vol. 4, No. 7, Jul. 1984, pp. 43-45.
Foley, James D. et al., Computer Graphics Principles and Practice, Addison-Wesley Publishing Company, Inc., Reading, Massachusetts, 1990, Table of Contents, pp. 550-555.
Franke, Richard, "Scattered Data Interpolation: Test of Some Methods," Mathematics of Computation, American Mathematical Society, U.S.A. Table of Contents and pp. 181-200.
Franke, Richard et al., "Smooth Interpolation of Large Sets of Scattered Data," International Journal for Numerical Methods in Engineering, 1980, Table Contents and 1691-1704.
Nielson, Gregory M., "Scattered Data Modeling," IEEE Computer Graphics & Applications, Jan. 1993, pp. 60-70.
Ashdown, I., "Near-Field Photometry: A New Approach," Journal of the Illumination Engineering Society 22, I (1993), 163-180.
Chen, S.E., "Quicktime VR--An Image-Based Approach to Virtual Environment Navigation," Computer Graphics, Annual Conference Series, 1995, pp. 29-38.
Chen, S.E. and Williams, L., "View Interpolation for Image Synthesis," Computer Graphics, Annual Conference Series, 1993, pp. 279-288.
Halle, M.W., "Holographic Stereograms as Discrete Imaging Systems," Practical Holography VIII (SPIE) 2176 (1994), 73-84.
Levoy, M. and Hanrahan, P., "Light-Field Rendering," Computer Graphics, Annual Conference Series, 1996.
Lewis, R.R. and Fournier, A., "Light-Driven Global Illumination with a Wavelet Representation of Light Transport," UBC CS Technical Reports 95-28, University of British Columbia, 1995.
McMillan, L. and Bishop, G., "Plenoptic Modeling: An Image-Based Rendering System," Computer Graphics, Annual Conference Series, 1995, pp. 39-46.
Szeliski, R., "Rapid Octree Construction From Image Sequences," CVGIP: Image Understanding 58, 1 (Jul. 1993), 23-32.
D. Ruprecht et al., Free-Form Deformation with Scattered Data Interpolation Methods, Computing (Supplement 8), Springer Verlag, Vienna, pp. 267-281, 1993.
T.A. Foley, Interpolation and Approximation of 3D and 4D Scattered Data, Computer and Mathematical Applications, vol. 13, No. 8, 1987, pp. 711-740.
M. H. Yaou et al., Fast Surface Interpolation using Multi-Resolution Wavelet Transform, Oct. 1993 International Conference on Systems, Man and Cybernetics, IEEE, vol. 4, pp. 523-528.
P. Alfeld, Scattered Data Interpolation in Three or More Variables, Mathematical Methods in Computer Aided Geometric Design, Academic Press, Inc., pp. 1-32, 1989.
D. Ruprecht et al., Image Warping with Scattered Data Interpolation, IEEE Computer Graphics and Applications, pp. 37-43, Mar. 1995.
K. Voegele, Scattered Data Interpolation Tools in a Microcomputer Visualization Environment, IEEE publication, pp. 315-322, Feb. 1990.
G. Farin, Smooth Interpolation to Scattered 3D Data, Surfaces in Computer Aided Geometric Design, North Holland Publishing Company, pp. 43-63, 1983.
L. Hong et al., An Approach to 3D Scene Reconstruction from Noisy Binocular Image Sequences using Information Fusion, IEEE publication, pp. 658-661, Aug. 1990.
M. H. Yaou et al., Wavelet Transform in Scattering Data Interpolation, Electronic Letters, vol. 29, No. 21, pp. 1835-1837, Oct. 1993.
Cohen Michael F.
Gortler Steven J.
Grzeszczuk Radek
Szeliski Richard S.
Boudreau Leo H.
Microsoft Corporation
Werner Brian P.
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