Literature DB >> 23201945

Three-dimensional Neumann-series approach to model light transport in nonuniform media.

Abhinav K Jha1, Matthew A Kupinski, Harrison H Barrett, Eric Clarkson, John H Hartman.   

Abstract

We present the implementation, validation, and performance of a three-dimensional (3D) Neumann-series approach to model photon propagation in nonuniform media using the radiative transport equation (RTE). The RTE is implemented for nonuniform scattering media in a spherical harmonic basis for a diffuse-optical-imaging setup. The method is parallelizable and implemented on a computing system consisting of NVIDIA Tesla C2050 graphics processing units (GPUs). The GPU implementation provides a speedup of up to two orders of magnitude over non-GPU implementation, which leads to good computational efficiency for the Neumann-series method. The results using the method are compared with the results obtained using the Monte Carlo simulations for various small-geometry phantoms, and good agreement is observed. We observe that the Neumann-series approach gives accurate results in many cases where the diffusion approximation is not accurate.

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Year:  2012        PMID: 23201945      PMCID: PMC3963433          DOI: 10.1364/JOSAA.29.001885

Source DB:  PubMed          Journal:  J Opt Soc Am A Opt Image Sci Vis        ISSN: 1084-7529            Impact factor:   2.129


  33 in total

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  9 in total

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2.  A radiative transfer equation-based image-reconstruction method incorporating boundary conditions for diffuse optical imaging.

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5.  Incorporating reflection boundary conditions in the Neumann series radiative transport equation: application to photon propagation and reconstruction in diffuse optical imaging.

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8.  Simulating photon-transport in uniform media using the radiative transport equation: a study using the Neumann-series approach.

Authors:  Abhinav K Jha; Matthew A Kupinski; Takahiro Masumura; Eric Clarkson; Alexey V Maslov; Harrison H Barrett
Journal:  J Opt Soc Am A Opt Image Sci Vis       Date:  2012-08-01       Impact factor: 2.129

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  9 in total

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