Radon变换和衰减Radon变换的分析研究

衰减Radon变换出现在单光子放射型计算机层析成像中。本文首先回顾和研究了Radon变换和衰减Radon变换及其反演的有关结论，进而提出了Tretiak-Metz结果的一种新证明方法，对于一般对象，本文用变换方法非滤子背投影法导出了衰减Radon变换的反演公式。     

Radon变换反演问题的数值方法

利用Tchebycheff多项式和古典Radon变换反演公式,本文得到了Tchebycheff变换对,从而导出了数值反演结果．     

R^n上广义Radon变换的奇异值分解

当广义Radon变换限制在带权的平方可积函数空间时, 该文构造了一类广义 Radon 变换的奇异值分解,给出了它们的逆变换的一些结果, 从而导出了广义 Radon 变换的反演公式以及值域的特征.     

一类广义Radon变换逆问题的Sobolev空间分析

§1.引言 早在1917年,德国数学家J.Radon研究如何由函数在所有超平面上的积分值确定函数F.John进一步研究了这个问题,他称上述积分为Radon变换,用平面波方法求Radon变换的反演,并将Radon变换应用于偏微分方程。Ludwig在[4]中,一般性地研究了欧氏空间上的Radon变换的各种反演方法以及支集定理等。Radon变换是最近兴起的CT技术的数学基础。它在医学、射电天文学和地球物理方面有一些成功的应     

双旋转不变Radon变换的一个等价刻画

给出双旋转不变Radon变换的一个等价刻画.证明了双旋转不变Radon变换的双旋转不变性可以被■×■×[0,1]×■上的函数所刻画.     

Abel变换数值反演的积分算子方法

本文研究了Abel变换的数值反演问题.利用Abel变换的理论反演公式与数值求导的积分算子法相结合的方法,对反演公式中奇异积分合理处理,获得Abel变换数值反演的一种算法,并进行了理论分析与数值实验. 结果表明该算法具有计算简单、数值稳定等优点.     

Radon变换在断层成像中的应用

介绍了著名的 Radon变换和断层成像的图像重建 .并通过图像实例直观地展示了重建效果 .     

X射线CT成像的数学模型及其有关问题

介绍了X射线CT系统和有关物理基础,综述了理想假设下的CT成像的连续数学模型和离散数学模型,以及相应的图像反演公式（重建算法）,并对其基本思想及优缺点进行了分析。最后,分类阐述了实际X射线CT系统研制和应用需要研究的若干问题。 关键词：计算机断层成像;数学模型;Radon变换;投影变换;图像重建算法     

窗口Fourier变换反演公式的级数表示——献给陆善镇教授75华诞

本文研究连续窗口Fourier变换的反演公式.与经典的积分重构公式不同,本文证明当窗函数满足合适的条件时,窗口Fourier变换的反演公式可以表示为一个离散级数.此外,本文还研究这一重构级数的逐点收敛及其在Lebesgue空间的收敛性.对于L^2空间,本文给出重构级数收敛的充分必要条件.     

On the Radon transform over isotropic d-planes

研究了速降函数在R2n中迷向d-平面上的Radon变换,d＜n,并分别给出d=1,d=2的情况下,此Radon变换的像满足的二阶偏微分方程组.     

On an αth-order fractional Radon transform and a wave type of equation

The Fourier slice theorem holds for the classical Radon transform. In this paper, we consider a fractional Radon transform for which a sort of Fourier slice theorem also holds, and then present an inversion formula. The fractional Radon transform is shown to be characterized by the multi-dimensional case of a wave type of equation in analogy to the classical Radon transform.     

Singularities of the radon transform of a class of piecewise smooth functions in <Emphasis Type="Italic">R</Emphasis><Superscript>2</Superscript>

A class of piecewise smooth functions in R2 is considered.The propagation law of the Radon transform of the function is derived.The singularities inversion formula of the Radon transform is derived from the propagation law.The examples of singularities and singularities inversion of the Radon transform are given.     

On inversion and Sobolev estimate results about the weighted Radon transform

In this paper, we derive an inversion of the weighted Radon transform by Fourier transform, Riesz potential, and integral transform. We extend results of Rigaud and Lakhal to the n‐dimensional Euclidean space. Furthermore, we obtain some properties of the weighted Radon transform. Finally, we develop some estimate results of the weighted Radon transform under Sobolev space.     

A one‐dimensional Radon transform on SO(3) and its application to texture goniometry

We consider a one‐dimensional Radon transform on the group SO (3), which is motivated by texture goniometry. In particular, we will derive several inversion formulae and compare them with the inversion of the one‐dimensional spherical Radon transform on ??³ for even functions. Copyright © 2005 John Wiley & Sons, Ltd.     

A NOTE ON SINGULAR VALUE DECOMPOSITION FOR RADON TRANSFORM IN R~n

The singular value decomposition is derived when the Radon transform is restricted to functions which are square integrable on the unit ball in Rn with respect to the weight Wλ(x). It fulfilles mainly by means of the projection-slice theorem.The range of the Radon transform is spanned by products of Gegenbauer polynomials and spherical harmonics. The inverse transform of the those basis functions are given. This immediately leads to an inversion formula by series expansion and range characterizations.     

On the Szegő–Radon projection of monogenic functions

We define a version of the Radon transform for monogenic functions which is based on Szegő kernels. The corresponding Szegő–Radon projection is abstractly defined as the orthogonal projection of a Hilbert module of left monogenic functions onto a suitable closed submodule of functions depending only on two variables. We also establish the inversion formula based on the dual transform.     

A characterization of inverse Radon transform on the Laguerre hypergroup

Let K=[0,∞)×R be the Laguerre hypergroup which is the fundamental manifold of the radial function space for the Heisenberg group. In this note we give another characterization for a subspace of S(K) (Schwartz space) such that the Radon transform Rα on K is a bijection. We show that this characterization is equivalent to that in [M.M. Nessibi, K. Trimèche, Inversion of the Radon transform on the Laguerre hypergroup by using generalized wavelets, J. Math. Anal. Appl. 208 (1997) 337-363]. In addition, we establish an inversion formula of the Radon transform Rα in the weak sense.     

Wavelet transform and radon transform on the quaternion Heisenberg group

Let Q be the quaternion Heisenberg group,and let P be the affine automorphism group of Q.We develop the theory of continuous wavelet transform on the quaternion Heisenberg group via the unitary representations of P on L2(Q).A class of radial wavelets is constructed.The inverse wavelet transform is simplified by using radial wavelets.Then we investigate the Radon transform on Q.A Semyanistyi–Lizorkin space is introduced,on which the Radon transform is a bijection.We deal with the Radon transform on Q both by the Euclidean Fourier transform and the group Fourier transform.These two treatments are essentially equivalent.We also give an inversion formula by using wavelets,which does not require the smoothness of functions if the wavelet is smooth.In addition,we obtain an inversion formula of the Radon transform associated with the sub-Laplacian on Q.