Bayesian Model Selection for Unsupervised Image Deconvolution with Structured Gaussian Priors

This paper considers the comparison of models in the context of inverse problems. Most often, model comparison is addressed in a supervised manner, that can be time-consuming and partly arbitrary. Here we adopt an unsupervised Bayesian approach and quantitatively compare the models based on their po...

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Bibliographic Details
Published in2021 IEEE Statistical Signal Processing Workshop (SSP) pp. 241 - 245
Main Authors Harroue, B., Giovannelli, J.-F., Pereyra, M.
Format Conference Proceeding
LanguageEnglish
Published IEEE 11.07.2021
Subjects
Bayes methods
Computational modeling
Conferences
Context modeling
Data models
Deconvolution
Signal processing
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Summary:This paper considers the comparison of models in the context of inverse problems. Most often, model comparison is addressed in a supervised manner, that can be time-consuming and partly arbitrary. Here we adopt an unsupervised Bayesian approach and quantitatively compare the models based on their posterior probabilities, directly calculated from available data without ground truth available. The probabilities depend on the evidences (marginal likelihoods) of the models and we resort to the Chib approach including a Gibbs sampler to compute them. We focus on the problem of image deconvolution, based on Gaussian models with unknown hyperparameters, in a circulant statement. We compare different impulse responses and covariance structures for image and noise.
ISSN:2693-3551
DOI:10.1109/SSP49050.2021.9513849