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Quadratic Regularization Design for Fan Beam Transmission Tomography

机译：扇形束透射层析成像的二次正则化设计

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Statistical methods for tomographic image reconstruction have shown considerable potential for improving image quality in X-ray CT. Penalized-likelihood (PL) image reconstruction methods require maximizing an objective function that is based on the log-likelihood of the sinogram measurements and on a roughness penalty function to control noise. In transmission tomography, PL methods (and MAP methods) based on conventional quadratic regularization functions lead to nonuniform and anisotropic spatial resolution, even for idealized shift-invariant imaging systems. We have previously addressed this problem for parallel-beam emission tomography by designing data-dependent, shift-variant regularizes that improve resolution uniformity. This paper extends those methods to the fan-beam geometry used in X-ray CT imaging. Simulation results demonstrate that the new method for regularization design requires very modest computation and leads to nearly uniform and isotropic spatial resolution in the fan-beam geometry when using quadratic regularization.

机译：层析图像重建的统计方法已显示出巨大的潜力，可以改善X射线CT的图像质量。惩罚似然（PL）图像重建方法需要最大化基于正弦图测量的对数似然和基于粗糙度惩罚函数来控制噪声的目标函数。在透射层析成像中，即使对于理想的平移不变成像系统，基于常规二次正则化函数的PL方法（和MAP方法）也会导致不均匀且各向异性的空间分辨率。以前，我们已经通过设计依赖数据的移位变量正则化方法来解决平行光束发射层析成像技术的这一问题，从而提高了分辨率的一致性。本文将这些方法扩展到X射线CT成像中使用的扇形光束几何形状。仿真结果表明，用于正则化设计的新方法需要非常适度的计算，并且在使用二次正则化时会导致扇形光束几何形状接近均匀且各向同性的空间分辨率。

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《Image Processing pt.3; Progress in Biomedical Optics and Imaging; vol.6 no.24 》|2005年|P.2023-2033|共11页
会议地点 San DiegoCA(US)
作者
Hugo Shi; Jeffrey A. Fessler;
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作者单位

The University of Michigan, Ann Arbor, MI;

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会议组织
原文格式 PDF
正文语种 eng
中图分类医用物理学 ; 光、激光生物医学 ;
关键词
X-ray computed tomography (CT); regularization; iterative image reconstruction; MAP; fan beam;

机译：X射线计算机断层扫描（CT）;正则化;迭代图像重建; MAP;扇束;

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专利

1. Fast Predictions of Variance Images for Fan-Beam Transmission Tomography With Quadratic Regularization [J] . Yingying Zhang-OConnor, Jeffrey A. Fessler IEEE Transactions on Medical Imaging . 2007 ,第期

机译：具有二次正则化的扇形束透射层析成像方差图像的快速预测
2. Air-coupled through-transmission fan-beam tomography using divergent capacitive ultrasonic transducers [J] . Wright W.M.D., Ingleby P., OSullivan I.J. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2005 ,第12期

机译：使用发散电容超声换能器的空气耦合直通传输扇形束层析成像
3. Full-field fan-beam x-ray fluorescence computed tomography system design with linear-array detectors and pinhole collimation: a rapid Monte Carlo study [J] . Siyuan Zhang, Liang Li, Ruizhe Li, Optical engineering . 2017 ,第11期

机译：具有线性阵列检测器和针孔准直的全视场扇形束X射线荧光计算机断层扫描系统设计：快速蒙特卡洛研究
4. Quadratic Regularization Design for Fan Beam Transmission Tomography [C] . Hugo Shi, Jeffrey A. Fessler Society of Photo-Optical Instrumentation Engineers (SPIE);SPIE Proceedings . 2005

机译：扇形束透射层析成像的二次正则化设计
5. Vibration Transmission Reduction Through Multi-Element Multi-Path Structural Design in Thin Beams and Cylindrical Shells. [D] . Raudales, David. 2015

机译：通过多单元多路径结构设计减少薄梁和圆柱壳中的振动传递。
6. Fast predictions of variance images for fan-beam transmission tomography with quadratic regularization [O] . Yingying Zhang-OConnor, Jeffrey A. Fessler -1

机译：具有二次正则化的扇形束透射层析成像方差图像的快速预测
7. Quadratic regularization design for fan beam transmission tomography [O] . Hugo Shi, Jeffrey A. Fessler 2014

机译：扇形束透射层析成像的二次正则化设计
8. Fan Beam Emission Tomography for Estimating Scalar Properties in Laminar Flames [R] . Lim, Jongmook, Sivathanu, Yudaya, Feikema, Douglas 2003

机译：用于估算层流火焰中标量特性的扇束发射层析成像

Quadratic Regularization Design for Fan Beam Transmission Tomography

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