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Phase-Function Corrected Diffusion Model for Diffuse Reflectance of a Pencil Beam Obliquely Incident on a Semi-Infinite Turbid Medium

机译：半无限浑浊介质上斜入射铅笔束的漫反射的相函数校正扩散模型

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Oblique incidence reflectometry (OIR) is an established technique for estimation of tissue optical properties, however, a sensing footprint of a few transport mean-free paths is often needed when diffusion-regime-based algorithms are used. Smaller-footprint probes require improved light-propagation models and inversion schemes for diffuse reflectance close to the point-of-entry but might enable micro-endoscopic form factors for clinical assessments of cancers and pre-cancers. In this paper we extend the phase-function corrected diffusion-theory presented by Vitkin et al. (Nat. Comm 2011) to the case of pencil beams obliquely incident on a semi-infinite turbid medium. The model requires minimal computational resources and offers improved accuracy over more traditional diffusion-theory approximations models when validated against Monte Carlo simulations. The computationally efficient nature of the models may lend themselves to rapid fitting procedures for inverse problems.

机译：斜入射反射法（OIR）是一种用于估计组织光学特性的成熟技术，但是，当使用基于扩散机制的算法时，通常需要一些传输均值-自由路径的传感足迹。占用空间较小的探针需要改进的光传播模型和反演方案，以在接近入射点处获得漫反射，但可能会启用微内窥镜形式的因子来进行癌症和癌前期的临床评估。在本文中，我们扩展了由Vitkin等提出的相位函数校正的扩散理论。（Nat。Comm 2011），以笔形光束斜入射在半无限浑浊介质上为例。经过蒙特卡洛模拟验证后，该模型所需的计算资源最少，并且比更传统的扩散理论近似模型具有更高的准确性。模型的计算效率高的性质可以使它们适用于逆问题的快速拟合过程。

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来源
《Biomedical applications of light scattering VII》|2013年|85920I.1-85920I.8|共8页
会议地点 San Francisco CA(US)
作者
Roger J. Zemp;
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作者单位

Department of Electrical Computer Engineering, University of Alberta, 2nd Floor ECERF, 9107-116 St. Edmonton, Alberta, Canada, T6G 2V4;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Oblique Incidence Reflectometry; Tissue Spectroscopy; Diffuse Reflectance; Monte Carlo; Radiative Transport Equation; Light Propagation in Tissue;

机译：斜入射反射法；组织光谱学；漫反射率蒙特卡洛;辐射输运方程；光在组织中的传播;

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专利

1. Modeling the diffuse reflectance due to a narrow beam incident on a turbid medium [J] . Shelley B. Rohde, Arnold D. Kim Journal of the Optical Society of America, A. Optics, image science, and vision . 2012,第3期

机译：模拟由于窄光束入射到浑浊介质上而引起的漫反射
2. Light diffusion in a turbid cylinder with an oblique incident pencil beam [J] . Zhang Shu, Wei Wei, Tan Zuojun Journal of the Optical Society of America, B. Optical Physics . 2018,第4期

机译：具有倾斜入射铅笔束的混浊圆筒中的光扩散
3. Simple empirical master-slave dual-source configuration within the diffusion approximation enhances modeling of spatially resolved diffuse reflectance at short-path and with low-scattering from a semi-infinite homogeneous medium (vol 56, pg 1447, 2017) [J] . Piao Daqing, Patel Sanjay Applied optics . 2018,第27期

机译：扩散近似内的简单经验型主从双源配置增强了在短路径下的空间分辨漫反射率的建模，并从半无限均匀介质（Vol 56，PG 1447,2017）的低散射
4. Phase-function corrected diffusion model for diffuse reflectance of a pencil beam obliquely incident on a semi-infinite turbid medium [C] . Roger J. Zemp SPIE Conference on Biomedical Applications of Light Scattering . 2013

机译：相位函数校正扩散模型，用于倾斜地在半无限浑浊介质上倾斜地入射的漫射反射率
5. Diffuse reflectance imaging modalities for characterization of highly scattering turbid media. [D] . Mehrubeoglu, Mehrube. 2000

机译：漫反射成像模式用于表征高度散射的混浊介质。
6. Modeling diffuse reflectance from homogeneous semi-infinite turbid media for biological tissue applications: a Monte Carlo study [O] . George Zonios, Aikaterini Dimou 2011

机译：模拟来自均质半无限混浊介质在生物组织中的漫反射：蒙特卡洛研究
7. Phase-function corrected diffusion model for diffuse reflectance of a pencil beam obliquely incident on a semi-infinite turbid medium [O] . Roger J. Zemp 2013

机译：相位函数校正扩散模型，用于倾斜地在半无限浑浊介质上倾斜地入射的漫射反射率

Phase-Function Corrected Diffusion Model for Diffuse Reflectance of a Pencil Beam Obliquely Incident on a Semi-Infinite Turbid Medium

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