Numerical approximation of bioluminescence tomography based on a new formulation

被引:0
|
作者
Xiaoliang Cheng
Rongfang Gong
Weimin Han
机构
[1] Zhejiang University,Department of Mathematics
[2] University of Iowa,Department of Mathematics
来源
Journal of Engineering Mathematics | 2009年 / 63卷
关键词
Bioluminescence tomography; Finite-element methods; Inverse problem;
D O I
暂无
中图分类号
学科分类号
摘要
Bioluminescence tomography (BLT) is a promising new method in biomedical imaging. The BLT problem is an ill-posed inverse source problem, usually studied through a regularization technique. A new approach is proposed for solving the BLT problem based on an adjoint equation. Numerical examples show that the new formulation allows us to obtain accurate solutions.
引用
收藏
页码:121 / 133
页数:12
相关论文
共 50 条
  • [31] Overview of bioluminescence tomography-a new molecular imaging modality
    Wang, Ge
    Cong, Wenxiang
    Shen, Haiou
    Qian, Xin
    Henry, Michael
    Wang, Yue
    FRONTIERS IN BIOSCIENCE-LANDMARK, 2008, 13 : 1281 - 1293
  • [32] NEW FORMULATION OF THE BEAM PROPAGATION METHOD BASED ON THE SLOWLY VARYING ENVELOPE APPROXIMATION
    HOEKSTRA, HJWM
    KRIJNEN, GJM
    LAMBECK, PV
    OPTICS COMMUNICATIONS, 1993, 97 (5-6) : 301 - 303
  • [33] NUMERICAL APPROXIMATION OF THE DISPLACEMENT FORMULATION OF THE AXISYMMETRIC ACOUSTIC VIBRATION PROBLEM
    Querales, Jose
    Rodriguez, Rodolfo
    Venegas, Pablo
    SIAM JOURNAL ON SCIENTIFIC COMPUTING, 2021, 43 (03): : A1583 - A1606
  • [34] A new formulation for developing CVBEM approximation functions
    Hromadka, TV
    Whitley, RJ
    ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS, 1996, 18 (01) : 39 - 41
  • [35] Improved Reconstruction for Bioluminescence Tomography by Using the Simplified Spherical Harmonics Approximation Model and Homotopy Method
    Guo, Hongbo
    Hou, Yuqing
    Yu, Jingjing
    Jin, Chen
    He, Xiaowei
    PROCEEDINGS OF 2013 IEEE INTERNATIONAL CONFERENCE ON MEDICAL IMAGING PHYSICS AND ENGINEERING (ICMIPE), 2013, : 274 - 278
  • [36] A measurement-based analytical approach to the bioluminescence tomography problem
    Erkol, Hakan
    Demirkiran, Aytac
    Kipergil, Esra-Aytac
    Uluc, Nasire
    Unlu, Mehmet B.
    BIOMEDICAL APPLICATIONS OF LIGHT SCATTERING VIII, 2014, 8952
  • [37] An optimized luciferin formulation for NanoLuc-based in vivo bioluminescence imaging
    Chao Gao
    Yan Wu
    Connor Fitzgerald
    Hui Wang
    Tim Ugo
    Tetsuo Uyeda
    Wenhui Zhou
    Yichi Su
    Thomas A. Kirkland
    Michael Z. Lin
    Scientific Reports, 15 (1)
  • [38] Reconstruction of Bioluminescence Tomography Based on Block Sparse Bayes Learning
    Yin Wanzhou
    Zhang Bin
    ACTA OPTICA SINICA, 2019, 39 (02)
  • [39] Sparsity reconstruction for bioluminescence tomography based on an augmented lagrangian method
    Guo, Wei
    Jia, Kebin
    Tian, Jie
    Han, Dong
    Liu, Xueyan
    Liu, Kai
    Zhang, Qian
    Feng, Jinchao
    Qin, Chenghu
    IMAGING, MANIPULATION, AND ANALYSIS OF BIOMOLECULES, CELLS, AND TISSUES X, 2012, 8225
  • [40] A Table-Based Random Sampling Simulation for Bioluminescence Tomography
    Zhang, Xiaomeng
    Bai, Jing
    INTERNATIONAL JOURNAL OF BIOMEDICAL IMAGING, 2006, 2006
12345