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De-Blurring Single Photon Emission Computed Tomography Images Using Wavelet Decomposition


Affiliations
1 Department of Electronics Engineering, Government Model Engineering College, India
2 Department of Electronics and Communication Engineering, College of Engineering Cherthala, India
     

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Single photon emission computed tomography imaging is a popular nuclear medicine imaging technique which generates images by detecting radiations emitted by radioactive isotopes injected in the human body. Scattering of these emitted radiations introduces blur in this type of images. This paper proposes an image processing technique to enhance cardiac single photon emission computed tomography images by reducing the blur in the image. The algorithm works in two main stages. In the first stage a maximum likelihood estimate of the point spread function and the true image is obtained. In the second stage Lucy Richardson algorithm is applied on the selected wavelet coefficients of the true image estimate. The significant contribution of this paper is that processing of images is done in the wavelet domain. Pre-filtering is also done as a sub stage to avoid unwanted ringing effects. Real cardiac images are used for the quantitative and qualitative evaluations of the algorithm. Blur metric, peak signal to noise ratio and Tenengrad criterion are used as quantitative measures. Comparison against other existing de-blurring algorithms is also done. The simulation results indicate that the proposed method effectively reduces blur present in the image.

Keywords

Blind De-Convolution, Nuclear Medicine Imaging, Single Photon Emission Computed Tomography Imaging, Wavelet Transform.
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  • De-Blurring Single Photon Emission Computed Tomography Images Using Wavelet Decomposition

Abstract Views: 279  |  PDF Views: 5

Authors

Neethu M. Sasi
Department of Electronics Engineering, Government Model Engineering College, India
V. K. Jayasree
Department of Electronics and Communication Engineering, College of Engineering Cherthala, India

Abstract


Single photon emission computed tomography imaging is a popular nuclear medicine imaging technique which generates images by detecting radiations emitted by radioactive isotopes injected in the human body. Scattering of these emitted radiations introduces blur in this type of images. This paper proposes an image processing technique to enhance cardiac single photon emission computed tomography images by reducing the blur in the image. The algorithm works in two main stages. In the first stage a maximum likelihood estimate of the point spread function and the true image is obtained. In the second stage Lucy Richardson algorithm is applied on the selected wavelet coefficients of the true image estimate. The significant contribution of this paper is that processing of images is done in the wavelet domain. Pre-filtering is also done as a sub stage to avoid unwanted ringing effects. Real cardiac images are used for the quantitative and qualitative evaluations of the algorithm. Blur metric, peak signal to noise ratio and Tenengrad criterion are used as quantitative measures. Comparison against other existing de-blurring algorithms is also done. The simulation results indicate that the proposed method effectively reduces blur present in the image.

Keywords


Blind De-Convolution, Nuclear Medicine Imaging, Single Photon Emission Computed Tomography Imaging, Wavelet Transform.