基于正则化反卷积的锥束CT散射校正

arXiv: Medical Physics Pub Date : 2016-04-06 DOI:10.18178/wcse.2016.06.082

Shipeng Xie, Rui-ju Yan

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引用次数: 0

摘要

在锥形束CT (Cone-Beam CT, CBCT)成像系统中，散射现象对重建图像有重要影响，是CBCT长期研究的课题。在本文中，我们提出了一种简单、新颖、快速的方法来减轻CBCT中的散射伪影并提高图像对比度，该方法属于基于卷积的方法，该方法使用卷积核对投影数据进行反卷积。该方法的关键一步是如何确定卷积核。与现有方法相比，卷积核的估计是基于对已知散射污染投影图像的中间和卷积核施加的bi-l1-l2范数正则化。我们的方法可以将散射伪影从12.930降低到2.133。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Scattering correction based on regularization de-convolution for Cone-Beam CT

In Cone-Beam CT (CBCT) imaging systems, the scattering phenomenon has a significant impact on the reconstructed image and is a long-lasting research topic on CBCT. In this paper, we propose a simple, novel and fast approach for mitigating scatter artifacts and increasing the image contrast in CBCT, belonging to the category of convolution-based method in which the projected data is de-convolved with a convolution kernel. A key step in this method is how to determine the convolution kernel. Compared with existing methods, the estimation of convolution kernel is based on bi-l1-l2-norm regularization imposed on both the intermediate the known scatter contaminated projection images and the convolution kernel. Our approach can reduce the scatter artifacts from 12.930 to 2.133.

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arXiv: Medical Physics

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