Restoration of blurred images using geometric and chebichef moments / Ahlad Kumar
Blur affects the edges of an image that leads to the degradation of the image quality. Several methods have been developed in both spatial and frequency domains to deblur Gaussian and motion blurred images by using iterative methods to estimate the blur parameters. In this study geometric moments...
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| Format: | Thesis |
| Published: |
2016
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| Subjects: | |
| Online Access: | http://studentsrepo.um.edu.my/6752/4/ahlad.pdf http://studentsrepo.um.edu.my/6752/ |
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| Summary: | Blur affects the edges of an image that leads to the degradation of the image quality.
Several methods have been developed in both spatial and frequency domains to deblur
Gaussian and motion blurred images by using iterative methods to estimate the blur parameters.
In this study geometric moments (GM) and Tchebichef moments (TM), from
the family of non-orthogonal and orthogonal moments respectively, are utilized for deblurring
of images. Here, three methods are proposed for deblurring of images. In the
first method, the framework of variational method is formulated in moment domain to
implement deblurring of the Gaussian and motion blurred images using Euler-Lagrange
identity and alternate minimization (AM) algorithm. It uses an iterative procedure in the
form of partial differential equations (PDE) to restore the deblurred GMs. This is addressed
for both non-blind and blind methods which use an iterative procedure to restore
the deblurred GMs. Then, a reconstruction method using Stirling numbers is used to restore
the deblurred image from the deblurred GMs. Three experiments are carried out
to demonstrate the effectiveness of the proposed method on the quality of the restored
images by considering the effects of the regularization parameter and blur size. In the
second method, Gaussian blur estimation problem is modelled as regression problem and
is solved using Weighted Geometric moments (WGM) and extreme learning machine
(ELM). In particular, WGMs are formulated as linear combination of fundamental basis
GMs which are used as feature vectors that can effectively capture the behavior of edges
present in an image subjected to Gaussian blur. These feature vectors along with ELM
are used in estimating the blur parameters. Once the blur parameters are estimated, the
restoration of the degraded image is performed in moment domain using the cascaded
digital filters operating as subtractors to perform the task of image reconstruction. Here,
two experiments are performed on six publicly available standard databases of images in order to validate the performance of the proposed method. In the first experiment, the
cross database analysis of the proposed method for blur estimation is carried out and the
results show that the blur parameters can be estimated. In the second experiment, the
proposed methods are compared with the five existing methods and the quality of the
restored images is evaluated using BRISQUE and SSIM. The results show the proposed
method performed well in most cases. In the third method, Tchebichef moments (TM)
of low order are selected as features used as inputs to ELM to estimate the Gaussian blur
parameters. Once the blur parameters are estimated, image restoration of the proposed
method is carried out using split Bregman algorithm. The performance analysis using
the proposed TM method is compared with the same five existing methods. It has been
observed that TMs based image restoration perform well compared to the five existing
methods when evaluated using image quality metrics. |
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