A Bayesian Hyperprior Approach for Joint Image Denoising and Interpolation, With an Application to HDR Imaging

Recently, impressive denoising results have been achieved by Bayesian approaches which assume Gaussian models for the image patches. This improvement in performance can be attributed to the use of per-patch models. Unfortunately such an approach is particularly unstable for most inverse problems bey...

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Bibliographic Details
Published in:IEEE transactions on computational imaging 2017-12, Vol.3 (4), p.633-646
Main Authors: Aguerrebere, Cecilia, Almansa, Andres, Delon, Julie, Gousseau, Yann, Muse, Pablo
Format: Article
Language:English
Subjects:
Bayes methods
Bayesian restoration
Computational modeling
Computer Science
conjugate distributions
gaussian mixture models
hierarchical models
high dynamic range imaging
hyper-prior
Image Processing
Image restoration
Inverse problems
maximum a posteriori
Noise reduction
non-local patch-based restoration
single shot HDR
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Summary:Recently, impressive denoising results have been achieved by Bayesian approaches which assume Gaussian models for the image patches. This improvement in performance can be attributed to the use of per-patch models. Unfortunately such an approach is particularly unstable for most inverse problems beyond denoising. In this paper, we propose the use of a hyperprior to model image patches, in order to stabilize the estimation procedure. There are two main advantages to the proposed restoration scheme: First, it is adapted to diagonal degradation matrices, and in particular to missing data problems (e.g., inpainting of missing pixels or zooming). Second, it can deal with signal dependent noise models, particularly suited to digital cameras. As such, the scheme is especially adapted to computational photography. In order to illustrate this point, we provide an application to high dynamic range imaging from a single image taken with a modified sensor, which shows the effectiveness of the proposed scheme.
ISSN:2573-0436
2333-9403
2333-9403
DOI:10.1109/TCI.2017.2704439