Evaluation of Spatial Variations in the Time and Frequency Dependence of Imaging Operators for Diffusion Tomography

Advances in Optical Imaging and Photon Migration Pub Date : 1900-01-01 DOI:10.1364/aoipm.1994.apmpdwi.99

H. Graber, J. Chang, R. Barbour, R. Aronson

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Abstract

Employing the framework of a perturbation model for optical diffusion tomography, the sensitivity and selectivity attainable from optical time- and frequency-domain, including phased array, measurements, are compared and contrasted. Monte Carlo simulations were used to calculate impulse-response functions in the interior of several homogeneous media. From the results, the impact on detected light due to small localized changes in absorption cross-section were computed. A feature unique to the frequency domain is the ability to qualitatively modify the depth profile of the weight amplitude by employing several sources in a phased array. In the case of single-source transmission measurements, a time-resolved measurement with a short integration time leads to enhanced ability to resolve deep-lying structures, by increasing the weight in deep regions relative to those near the surface. In contrast, as the source modulation frequency is increased in a frequency-domain measurement, the weight amplitude drops off most rapidly in regions farthest from the boundaries, and more slowly in more superficial regions. The significance of these findings for perturbation-based image recovery schemes is discussed.

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扩散层析成像算子的时间和频率依赖性的空间变化评价

采用光学扩散层析成像的微扰模型框架，对光学时域和频域(包括相控阵测量)的灵敏度和选择性进行了比较和对比。采用蒙特卡罗模拟方法计算了几种均匀介质内部的脉冲响应函数。根据实验结果，计算了吸收截面局部变化对探测光的影响。频域的一个独特特征是能够通过在相控阵中使用几个源来定性地修改权重振幅的深度剖面。在单源传输测量中，较短积分时间的时间分辨测量通过增加深部相对于地表的重量，从而增强了分辨深部结构的能力。相反，在频域测量中，随着源调制频率的增加，权重幅度在离边界最远的区域下降得最快，在较浅的区域下降得更慢。讨论了这些发现对基于摄动的图像恢复方案的意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Advances in Optical Imaging and Photon Migration

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