Title :
Boundary Element Method for Diffuse Optical Tomography
Author :
Wehao Xie ; Yong Deng ; Lichao Lian ; Kan Wang ; Zhaoyang Luo ; Hui Gong
Author_Institution :
Wuhan Nat. Lab. for Optoelectron., Huazhong Univ. of Sci. & Technol., Wuhan, China
Abstract :
The Diffuse Optical Tomography (DOT) is an in vivo optical imaging technique using scattered light to detect organization function with great range of depth. The most commonly used numerical method in solving its forward problem is finite element method (FEM). However, boundary element method (BEM) is a semi-analytic method, it is of higher computation accuracy, more effective for large scale problem than FEM since it only needs to discretize boundary which reduces the dimension of the problem. In this paper, we present a scheme of boundary element method for the diffuse light propagation in the heterogeneous medium. Comparing these calculations to Monte Carlo simulations, the results show a good agreement between both methods. BEM provides an optimization scheme for image reconstruction in DOT, and lay a foundation for the coupling of finite element method and boundary element method.
Keywords :
Monte Carlo methods; biomedical optical imaging; boundary-elements methods; finite element analysis; image reconstruction; medical image processing; optical tomography; BEM; DOT; FEM; Monte Carlo simulations; boundary element method; computation accuracy; depth range; diffuse optical tomography; finite element method; heterogeneous medium; image reconstruction; in vivo optical imaging technique; large-scale problem; light propagation diffusion; optimization scheme; organization function detection; scattered light; semianalytic method; Biomedical optical imaging; Finite element analysis; Mathematical model; Optical imaging; Optical scattering; Photonics; Boundary element method; Diffuse optical tomography; Monte Carlo;
Conference_Titel :
Image and Graphics (ICIG), 2013 Seventh International Conference on
Conference_Location :
Qingdao
DOI :
10.1109/ICIG.2013.7
