Blind image deconvolution using space-variant neural network approach

Cheema, T.A.; Qureshi, I.M.; Hussain, A.

Blind image deconvolution using space-variant neural network approach

Cheema, T.A.; Qureshi, I.M.; Hussain, A.

Authors

T.A. Cheema

I.M. Qureshi

Prof Amir Hussain A.Hussain@napier.ac.uk
Professor

Abstract

A novel space-variant neural network based on an autoregressive moving average process is proposed for blind image deconvolution. An extended cost function motivated by human visual perception is developed simultaneously to identify the blur and to restore the image degraded by space-variant non-causal blur and additive white Gaussian noise. Since the blur affects various regions of the image differently, the image is divided into blocks according to an assigned level of activity. This is shown to result in more effective enhancement of the textured regions while suppressing the noise in smoother backgrounds.

Journal Article Type	Article
Publication Date	Mar 17, 2005
Deposit Date	Oct 4, 2019
Journal	Electronics Letters
Print ISSN	0013-5194
Publisher	Institution of Engineering and Technology (IET)
Peer Reviewed	Peer Reviewed
Volume	41
Issue	6
Pages	308-309
Keywords	Deconvolution, neutral networks, noise, images.
Public URL	http://researchrepository.napier.ac.uk/Output/1793661

Applications of Deep Learning and Reinforcement Learning to Biological Data (2018)
Journal Article

Guided Policy Search for Sequential Multitask Learning (2018)
Journal Article

Learning Latent Features With Infinite Nonnegative Binary Matrix Trifactorization (2018)
Journal Article

Cross-modality interactive attention network for multispectral pedestrian detection (2018)
Journal Article

Weakly Supervised Segmentation of SAR Imagery Using Superpixel and Hierarchically Adversarial CRF (2019)
Journal Article

Downloadable Citations

HTML

BIB

RTF

Authors

Abstract

You might also like

Downloadable Citations