Effect of the “∇D” Term in Optical Diffusion Imaging

Signal Recovery and Synthesis Pub Date : 1900-01-01 DOI:10.1364/srs.1998.sthb.2
J. C. Ye, R. Millane, K. Webb, T. Downar
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Abstract

Optical diffusion imaging in highly scattering media such as tissue, as an alternative to X-ray tomography, presents significantly lower health risks, and has successfully demonstrated its potential in biomedical applications. Although current reconstruction algorithms have been applied with some success, there are a number of opportunities for improving both the accuracy of the reconstructions and the speed of convergence. Most studies of frequency-resolved diffusion imaging involve casting the diffusion as a Helmholtz equation, which involves the approximation that ∇D = 0. We describe here an analysis of the effects of this approximation on both the generation of synthetic data for simulations, and the effect on reconstructions.
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“∇D”项对光学扩散成像的影响
在组织等高散射介质中进行光学扩散成像,作为x射线断层扫描的替代方法,其健康风险显著降低,并已成功证明其在生物医学应用中的潜力。虽然目前的重建算法已经取得了一些成功,但在提高重建的准确性和收敛速度方面还有很多机会。大多数频率分辨扩散成像的研究都涉及到将扩散转换为亥姆霍兹方程,这涉及到∇D = 0的近似。我们在这里描述了这种近似对模拟合成数据的生成和对重建的影响的分析。
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Signal Recovery and Synthesis
Signal Recovery and Synthesis
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