Quantifying Uncertainty in High Dimensional Inverse Problems by Convex Optimisation. Cai, X., Pereyra, M., & McEwen, J. D. In 2019 27th European Signal Processing Conference (EUSIPCO), pages 1-5, Sep., 2019.
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Paper doi abstract bibtex
Paper doi abstract bibtex Inverse problems play a key role in modern image/signal processing methods. However, since they are generally ill-conditioned or ill-posed due to lack of observations, their solutions may have significant intrinsic uncertainty. Analysing and quantifying this uncertainty is very challenging, particularly in high-dimensional problems and problems with non-smooth objective functionals (e.g. sparsity-promoting priors). In this article, a series of strategies to visualise this uncertainty are presented, e.g. highest posterior density credible regions, and local credible intervals (cf. error bars) for individual pixels and superpixels. Our methods support non-smooth priors for inverse problems and can be scaled to high-dimensional settings. Moreover, we present strategies to automatically set regularisation parameters so that the proposed uncertainty quantification (UQ) strategies become much easier to use. Also, different kinds of dictionaries (complete and over-complete) are used to represent the image/signal and their performance in the proposed UQ methodology is investigated.
@InProceedings{8903038,
author = {X. Cai and M. Pereyra and J. D. McEwen},
booktitle = {2019 27th European Signal Processing Conference (EUSIPCO)},
title = {Quantifying Uncertainty in High Dimensional Inverse Problems by Convex Optimisation},
year = {2019},
pages = {1-5},
abstract = {Inverse problems play a key role in modern image/signal processing methods. However, since they are generally ill-conditioned or ill-posed due to lack of observations, their solutions may have significant intrinsic uncertainty. Analysing and quantifying this uncertainty is very challenging, particularly in high-dimensional problems and problems with non-smooth objective functionals (e.g. sparsity-promoting priors). In this article, a series of strategies to visualise this uncertainty are presented, e.g. highest posterior density credible regions, and local credible intervals (cf. error bars) for individual pixels and superpixels. Our methods support non-smooth priors for inverse problems and can be scaled to high-dimensional settings. Moreover, we present strategies to automatically set regularisation parameters so that the proposed uncertainty quantification (UQ) strategies become much easier to use. Also, different kinds of dictionaries (complete and over-complete) are used to represent the image/signal and their performance in the proposed UQ methodology is investigated.},
keywords = {Bayes methods;convex programming;inverse problems;sampling methods;signal processing;high-dimensional settings;uncertainty quantification strategies;high dimensional inverse problems;convex optimisation;high-dimensional problems;nonsmooth objective functionals;sparsity-promoting priors;highest posterior density credible regions;local credible intervals;Estimation;Uncertainty;Inverse problems;Bayes methods;Dictionaries;Optimization;Europe;Uncertainty quantification;image/signal processing;inverse problem;Bayesian inference;convex optimisation},
doi = {10.23919/EUSIPCO.2019.8903038},
issn = {2076-1465},
month = {Sep.},
url = {https://www.eurasip.org/proceedings/eusipco/eusipco2019/proceedings/papers/1570526876.pdf},
}Downloads: 0
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