Adaptive Quantile Sparse Image (AQuaSI) Prior for Inverse Imaging Problems

Schirrmacher F, Riess C, Köhler T (2020)

Publication Type: Journal article

Publication year: 2020


Book Volume: 6

Pages Range: 503--517

Journal Issue: 1


DOI: 10.1109/TCI.2019.2956888


Inverse problems play a central role for many classical computer vision and image processing tasks. Many inverse problems are ill-posed, and hence require a prior to regularize the solution space. However, many of the existing priors, like total variation, are based on ad-hoc assumptions that have difficulties to represent the actual distribution of natural images. Thus, a key challenge in research on image processing is to find better suited priors to represent natural images. In this article, we propose the Adaptive Quantile Sparse Image (AQuaSI) prior. It is based on a quantile filter, can be used as a joint filter on guidance data, and be readily plugged into a wide range of numerical optimization algorithms. We demonstrate the efficacy of the proposed prior in joint RGB/depth upsampling, on RGB/NIR image restoration, and in a comparison with related regularization by denoising approaches.

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How to cite


Schirrmacher, F., Riess, C., & Köhler, T. (2020). Adaptive Quantile Sparse Image (AQuaSI) Prior for Inverse Imaging Problems. IEEE Transactions on Computational Imaging, 6(1), 503--517.


Schirrmacher, Franziska, Christian Riess, and Thomas Köhler. "Adaptive Quantile Sparse Image (AQuaSI) Prior for Inverse Imaging Problems." IEEE Transactions on Computational Imaging 6.1 (2020): 503--517.

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