Modeling and removing spatially-varying optical blur

Photo deblurring has been a major research topic in the past few years. So far, existing methods have focused on removing the blur due to camera shake and object motion. In this paper, we show that the optical system of the camera also generates significant blur, even with professional lenses. We in...

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Bibliographic Details
Published in2011 IEEE International Conference on Computational Photography pp. 1 - 8
Main Authors Kee, Eric, Paris, Sylvain, Chen, Simon, Jue Wang
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.04.2011
Subjects
Adaptive optics
Apertures
Kernel
Lenses
Optical imaging
Optical sensors
Robustness
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Summary:Photo deblurring has been a major research topic in the past few years. So far, existing methods have focused on removing the blur due to camera shake and object motion. In this paper, we show that the optical system of the camera also generates significant blur, even with professional lenses. We introduce a method to estimate the blur kernel densely over the image and across multiple aperture and zoom settings. Our measures show that the blur kernel can have a non-negligible spread, even with top-of-the-line equipment, and that it varies nontrivially over this domain. In particular, the spatial variations are not radially symmetric and not even left-right symmetric. We develop and compare two models of the optical blur, each of them having its own advantages. We show that our models predict accurate blur kernels that can be used to restore photos. We demonstrate that we can produce images that are more uniformly sharp unlike those produced with spatially-invariant deblurring techniques.
ISBN:9781612847078
1612847072
DOI:10.1109/ICCPHOT.2011.5753120