Title :
Blind image restoration by anisotropic regularization
Author :
You, Yu-Li ; Kaveh, Mostafa
Author_Institution :
Digital Theater Syst. Inc., Agoura Hills, CA, USA
fDate :
3/1/1999 12:00:00 AM
Abstract :
This paper presents anisotropic regularization techniques to exploit the piecewise smoothness of the image and the point spread function (PSF) in order to mitigate the severe lack of information encountered in blind restoration of shift-invariantly and shift-variantly blurred images. The new techniques, which are derived from anisotropic diffusion, adapt both the degree and direction of regularization to the spatial activities and orientations of the image and the PSF. This matches the piecewise smoothness of the image and the PSF which may be characterized by sharp transitions in magnitude and by the anisotropic nature of these transitions. For shift-variantly blurred images whose underlying PSFs may differ from one pixel to another, we parameterize the PSF and then apply the anisotropic regularization techniques. This is demonstrated for linear motion blur and out-of-focus blur. Alternating minimization is used to reduce the computational load and algorithmic complexity
Keywords :
computational complexity; image enhancement; image restoration; minimisation; optical transfer function; PSF; algorithmic complexity; alternating minimization; anisotropic diffusion; anisotropic regularization; blind image restoration; computational load; linear motion blur; magnitude; orientations; out-of-focus blur; piecewise smoothness; point spread function; sharp transition; shift-invariantly blurred images; shift-variantly blurred images; spatial activities; Anisotropic magnetoresistance; Cameras; Degradation; Focusing; Image restoration; Measurement errors; Minimization methods; Pixel; Quantization; Robot vision systems;
Journal_Title :
Image Processing, IEEE Transactions on
