Zeng Gengsheng L
Department of Computer Science, Utah Valley University, USA.
Department of Radiology and Imaging Sciences, University of Utah, USA.
Biomed J Sci Tech Res. 2024;55(2):46779-46884. doi: 10.26717/bjstr.2024.55.008672. Epub 2024 Feb 23.
There are fewer than 10 projection views in extreme few-view tomography. The state-of-the-art methods to reconstruct images with few-view data are compressed sensing based. Compressed sensing relies on a sparsification transformation and total variation (TV) norm minimization. However, for the extreme few-view tomography, the compressed sensing methods are not powerful enough. This paper seeks additional information as extra constraints so that extreme few-view tomography becomes possible. In transmission tomography, we roughly know the linear attenuation coefficients of the objects to be imaged. We can use these values as extra constraints. Computer simulations show that these extra constraints are helpful and improve the reconstruction quality.
在极少量视图断层扫描中,投影视图少于10个。利用少量视图数据重建图像的现有技术方法是基于压缩感知的。压缩感知依赖于稀疏化变换和总变差(TV)范数最小化。然而,对于极少量视图断层扫描,压缩感知方法的能力还不够强大。本文寻求额外信息作为额外约束条件,以使极少量视图断层扫描成为可能。在透射断层扫描中,我们大致知道待成像物体的线性衰减系数。我们可以将这些值用作额外约束条件。计算机模拟表明,这些额外约束条件是有帮助的,并提高了重建质量。