TR2006-124
Coded Exposure Photography: Motion Deblurring using Fluttered Shutter
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- "Coded Exposure Photography: Motion Deblurring Using Fluttered Shutter", ACM Transactions on Graphics (TOG), Vol. 25, No. 3, pp. 795-804, July 2006.BibTeX TR2006-124 PDF
- @article{Raskar2006jul1,
- author = {Raskar, R. and Agrawal, A. and Tumblin, J.},
- title = {Coded Exposure Photography: Motion Deblurring Using Fluttered Shutter},
- journal = {ACM Transactions on Graphics (TOG)},
- year = 2006,
- volume = 25,
- number = 3,
- pages = {795--804},
- month = jul,
- issn = {0730-0301},
- url = {https://www.merl.com/publications/TR2006-124}
- }
,
- "Coded Exposure Photography: Motion Deblurring Using Fluttered Shutter", ACM Transactions on Graphics (TOG), Vol. 25, No. 3, pp. 795-804, July 2006.
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Research Area:
Abstract:
In a conventional single-exposure photograph, moving objects or moving cameras cause motion blur. The exposure time defines a temporal box filter that smears the moving object across the image by convolution. This box filter destroys important high-frequency spatial details so that deblurring via deconvolution becomes an illposed problem. Rather than leaving the shutter open for the entire exposure duration, we "flutter" the camera's shutter open and closed during the chosen exposure time with a binary pseudo-random sequence. The flutter changes the box filter to a broad-band filter that preserves high-frequency spatial details in the blurred image and the corresponding deconvolution becomes a well-posed problem. We demonstrate that manually-specified point spread functions are sufficient for several challenging cases of motion-blur removal including extremely large motions, textured backgrounds and partial occluders.
Related News & Events
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NEWS ACM Transactions on Graphics (TOG): 7 publications by Amit Agrawal, Ramesh Raskar and others Date: July 15, 2006
Where: ACM Transactions on Graphics (TOG)
Research Area: Computer VisionBrief- The articles "Coded Exposure Photography: Motion Deblurring Using Fluttered Shutter" by Raskar, R., Agrawal, A. and Tumblin, J., "Fast Separation of Direct and Global Components of a Scene Using High Frequency Illumination" by Nayar, S.K., Krishnan, G., Grossberg, M.D. and Raskar, R., "Analysis of Human Faces using a measurement-Based Skin Reflectance Model" by Weyrich, T., Matusik, W., Pfister, H., Bickel, B., Donner, C., Tu, C., McAndless, J., Lee, J., Ngan, A., Jensen, H. and Gross, M., "Inverse Shade Trees for Non-Parametric Material Representation and Editing" by Lawrence, J., Ben-Artzi, A., DeCoro, C., Matusik, W., Pfister, H., Ramamoorthi, R. and Rusinkiewicz, S., "A Compact Factored Representation of Heterogeneous Subsurface Scattering" by Peers, P., Berge, K., Matusik, W., Ramamoorthi, R., Lawrence, J., Rusinkiewicz, S. and Dutre, P., "Time-Varying Surface Appearance: Acquisition, Modeling and Rendering" by Gu, J., Tu, C., Ramamoorthi, R., Belhumeur, P., Matusik, W. and Nayar, S. and "A Statistical Model for Synthesis of Detailed Facial Geometry" by Golovinskiy, A., Matusik, W., Pfister, H., Rusinkiewicz, S. and Funkhouser, T. were published in ACM Transactions on Graphics (TOG).