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Computational photography
Video files associated with this course are available from the citation page

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International Conference on Computer Graphics and Interactive Techniques archive
ACM SIGGRAPH 2007 courses table of contents

San Diego, California

SESSION: Course 1: Computational photography table of contents

Article No. 1

Year of Publication: 2007

Authors

Ramesh Raskar	Mitsubishi Electric Research Labs
Jack Tumblin	Northwestern University

Sponsor

SIGGRAPH: ACM Special Interest Group on Computer Graphics and Interactive Techniques

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 26, Downloads (12 Months): 279, Citation Count: 0

Additional Information:

appendices and supplements references collaborative colleagues

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APPENDICES and SUPPLEMENTS

c1-raskar1 (6 KB)	Rasker/Tumnlin presentation 1

c1-raskar2 (7 KB)	Rasker/Tumnlin presentation 2

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	McNally, J. G., Karpova, T., Cooper, J., Conchello, J. A., Three-Dimensional Imaging by Deconvolution Microscopy, Methods, Vol. 19, 1999.
	2	Bracewell, R. N. Strip Integration in Radio Astronomy, Australian Journal of Physics, Vol. 9, 1956, No. 2, pp. 198--217.
	3	Kak, A, Slaney, M., Principles of Computerized Tomographic Imaging, IEEE Press, 1988.
	4	Herman, G. T., Image Reconstruction from Projections, Academic Press, 1980.
	5	Olson, T., Jaffe, J. S., An explanation of the effects of squashing in limited angle tomography, IEEE Trans. Medical Imaging, Vol. 9, No. 3., September 1990.
	6	Olson, T., A stabilized inversion for limited angle tomography. Manuscript.
	7	35 degrees missing
	8	Reynolds, J. M., An Introduction to Applied and Environmental Geophysics, Wiley, 1997.
	9	Wolf E 1969, Three-dimensional structure determination of semi-transparent objects from holographic data, Opt. Commun. 1 153--6
	10	Devaney, A., Inverse scattering and optical diffraction tomography, Powerpoint presentation.
	11	Jebali, A., Numerical Reconstruction of semi-transparent objects in Optical Diffraction Tomography, Diploma Project, Ecole Polytechnique, Lausanne, 2002.
	12	Arridge, S. R., Methods for the Inverse Problem in Optical Tomography, Proc. Waves and Imaging Through Complex Media, Kluwer, 307--329, 2001.
	13	Martin Schweiger , Adam Gibson , Simon R. Arridge, Computational Aspects of Diffuse Optical Tomography, Computing in Science and Engineering, v.5 n.6, p.33-41, November 2003 [doi>10.1109/MCISE.2003.1238702]
	14	Henrik Wann Jensen , Stephen R. Marschner , Marc Levoy , Pat Hanrahan, A practical model for subsurface light transport, Proceedings of the 28th annual conference on Computer graphics and interactive techniques, p.511-518, August 2001 [doi>10.1145/383259.383319]
	15	McNally, J. G., Karpova, T., Cooper, J., Conchello, J. A., Three-Dimensional Imaging by Deconvolution Microscopy, Methods, Vol. 19, 1999.
	16	Zand, J., Coded aperture imaging in high energy astronomy, http://Iheawww.gsfc.nasa.gov/docs/cai/coded_intr.html
	17	Paul Carlisle, Coded Aperture Imaging, http://www.paulcarlisle.net/old/codedaperture.html
	18	Gustafsson, M. G. L., Nonlinear structured-illumination microscopy: Wide-field fluorescence imaging with theoretically unlimited resolution, Proc. National Academy of Sciences (PNAS), Vol. 102, No. 37, Sept. 13, 2005.

Collaborative Colleagues:

Ramesh Raskar: colleagues

Jack Tumblin: colleagues

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