A fast super-resolution reconstruction algorithm for pure translational motion and common space-invariant blur

Author

Elad, Michael ; Hel-Or, Yacov

Author_Institution

Jigami Corp., Technion City, Israel

Volume

10

Issue

8

fYear

2001

fDate

8/1/2001 12:00:00 AM

Firstpage

1187

Lastpage

1193

Abstract

This paper addresses the problem of recovering a super-resolved image from a set of warped blurred and decimated versions thereof. Several algorithms have already been proposed for the solution of this general problem. In this paper, we concentrate on a special case where the warps are pure translations, the blur is space invariant and the same for all the images, and the noise is white. We exploit previous results to develop a new highly efficient super-resolution reconstruction algorithm for this case, which separates the treatment into de-blurring and measurements fusion. The fusion part is shown to be a very simple non-iterative algorithm, preserving the optimality of the entire reconstruction process, in the maximum-likelihood sense. Simulations demonstrate the capabilities of the proposed algorithm

Keywords

image motion analysis; image reconstruction; image resolution; maximum likelihood estimation; white noise; additive white noise; common space-invariant blur; computational cost; de-blurring; decimated image; fast super-resolution reconstruction algorithm; maximum likelihood method; measurements fusion; noniterative algorithm; simulations; super-resolved image recovery; translational motion; warped blurred image; Additive noise; Frequency; Helium; Image reconstruction; Image resolution; Image restoration; Noise measurement; Reconstruction algorithms; Spatial resolution; White noise;

fLanguage

English

Journal_Title

Image Processing, IEEE Transactions on

Publisher

ieee

ISSN

1057-7149

Type

jour

DOI

10.1109/83.935034

Filename

935034