Asymmetric Multiframe Blind Restoration for Adaptive Optics Images via Alternating Recursion

Author

Afeng Yang ; Jianfei Wu ; Min Lu ; Shuhua Teng ; Jixiang Sun

fYear

2013

fDate

14-15 Sept. 2013

Firstpage

177

Lastpage

184

Abstract

Blind Restoration of adaptive optics images is important in the field of astronomical imaging and space object surveillance. Using multi frame blind deconvolution as main technique means for high resolution restoration, a general cost function is deduced to deconvolve Poisson noise model image under the Bayesian-MAP estimate framework. To minimize the cost function, a solution algorithm based on alternating recursion method is proposed. In addition, asymmetric iteration method is introduced into solution process to avoid converging to local minima and maintain robustness of restored image. Experimental results show that the proposed method can recover high quality image from turbulence degraded images effectively and alleviate the negative influence of noise on the restoration result.

Keywords

Bayes methods; deconvolution; image resolution; image restoration; iterative methods; maximum likelihood estimation; Bayesian-MAP estimate framework; Poisson noise model image deconvolution; adaptive optic images; alternating recursion method; astronomical imaging; asymmetric iteration method; asymmetric multiframe blind restoration; cost function minimization; high resolution restoration; local minima; multiframe blind deconvolution; space object surveillance; turbulence degraded images; Adaptive optics; Cost function; Deconvolution; Estimation; Image restoration; Imaging; Noise; Adaptive optics images; Alternating recursion; Blind deconvolution; Image restoration; MAP;

fLanguage

English

Publisher

ieee

Conference_Titel

Virtual Reality and Visualization (ICVRV), 2013 International Conference on

Conference_Location

Xi´an

Type

conf

DOI

10.1109/ICVRV.2013.35

Filename

6689414