Improvement and Assessment of a Blind Image Deblurring Algorithm Based on Independent Component Analysis

Improvement and Assessment of a Blind Image Deblurring Algorithm Based on Independent Component Analysis

The aim of the present paper is to improve an existing blind image deblurring algorithm, based on an independent component learning paradigm, by manifold calculus. The original technique is based on an independent component analysis algorithm applied to a set of pseudo-images obtained by Gabor-filte...

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Main Author: Simone Fiori
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Computation
Subjects:
blind image deblurring
Gabor filter
independent component analysis
Riemannian manifold
gradient-based learning
Online Access:https://www.mdpi.com/2079-3197/9/7/76
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spelling doaj-f0309d86275c42528efc36a2780588f62021-07-23T13:36:20ZengMDPI AGComputation2079-31972021-07-019767610.3390/computation9070076Improvement and Assessment of a Blind Image Deblurring Algorithm Based on Independent Component AnalysisSimone Fiori0Dipartimento di Ingegneria dell’Informazione, Università Politecnica delle Marche, Via Brecce Bianche s.n.c., 60131 Ancona, ItalyThe aim of the present paper is to improve an existing blind image deblurring algorithm, based on an independent component learning paradigm, by manifold calculus. The original technique is based on an independent component analysis algorithm applied to a set of pseudo-images obtained by Gabor-filtering a blurred image and is based on an adapt-and-project paradigm. A comparison between the original technique and the improved method shows that independent component learning on the unit hypersphere by a Riemannian-gradient algorithm outperforms the adapt-and-project strategy. A comprehensive set of numerical tests evidenced the strengths and weaknesses of the discussed deblurring technique.https://www.mdpi.com/2079-3197/9/7/76blind image deblurringGabor filterindependent component analysisRiemannian manifoldgradient-based learning
collection DOAJ
language English
format Article
sources DOAJ
author Simone Fiori
spellingShingle Simone Fiori
Improvement and Assessment of a Blind Image Deblurring Algorithm Based on Independent Component Analysis
Computation
blind image deblurring
Gabor filter
independent component analysis
Riemannian manifold
gradient-based learning
author_facet Simone Fiori
author_sort Simone Fiori
title Improvement and Assessment of a Blind Image Deblurring Algorithm Based on Independent Component Analysis
title_short Improvement and Assessment of a Blind Image Deblurring Algorithm Based on Independent Component Analysis
title_full Improvement and Assessment of a Blind Image Deblurring Algorithm Based on Independent Component Analysis
title_fullStr Improvement and Assessment of a Blind Image Deblurring Algorithm Based on Independent Component Analysis
title_full_unstemmed Improvement and Assessment of a Blind Image Deblurring Algorithm Based on Independent Component Analysis
title_sort improvement and assessment of a blind image deblurring algorithm based on independent component analysis
publisher MDPI AG
series Computation
issn 2079-3197
publishDate 2021-07-01
description The aim of the present paper is to improve an existing blind image deblurring algorithm, based on an independent component learning paradigm, by manifold calculus. The original technique is based on an independent component analysis algorithm applied to a set of pseudo-images obtained by Gabor-filtering a blurred image and is based on an adapt-and-project paradigm. A comparison between the original technique and the improved method shows that independent component learning on the unit hypersphere by a Riemannian-gradient algorithm outperforms the adapt-and-project strategy. A comprehensive set of numerical tests evidenced the strengths and weaknesses of the discussed deblurring technique.
topic blind image deblurring
Gabor filter
independent component analysis
Riemannian manifold
gradient-based learning
url https://www.mdpi.com/2079-3197/9/7/76
work_keys_str_mv AT simonefiori improvementandassessmentofablindimagedeblurringalgorithmbasedonindependentcomponentanalysis
_version_ 1721288944389193728

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