从时间分辨测量中恢复光子飞行时间分布的反卷积方法。

Deconvolution method for recovering the photon time-of-flight distribution from time-resolved measurements.

机构信息

Imaging Division, Lawson Health Research Institute, London, Ontario, Canada.

出版信息

Opt Lett. 2012 Jun 15;37(12):2358-60. doi: 10.1364/OL.37.002358.

DOI:10.1364/OL.37.002358

Abstract

A nonparametric deconvolution algorithm for recovering the photon time-of-flight distribution (TOFD) from time-resolved (TR) measurements is described. The algorithm combines wavelet denoising and a two-stage deconvolution method based on generalized singular value decomposition and Tikhonov regularization. The efficacy of the algorithm was tested on simulated and experimental TR data and the results show that it can recover the photon TOFD with high fidelity. Combined with the microscopic Beer-Lambert law, the algorithm enables accurate quantification of absorption changes from arbitrary time-of-flight windows, thereby optimizing the depth sensitivity provided by TR measurements.

摘要

本文介绍了一种从时间分辨（TR）测量中恢复光子飞行时间分布（TOFD）的非参数解卷积算法。该算法结合了小波去噪和基于广义奇异值分解和 Tikhonov 正则化的两阶段反卷积方法。该算法在模拟和实验 TR 数据上进行了测试，结果表明它可以高度真实地恢复光子 TOFD。结合微观 Beer-Lambert 定律，该算法能够从任意飞行时间窗口准确量化吸收变化，从而优化 TR 测量提供的深度灵敏度。

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从时间分辨测量中恢复光子飞行时间分布的反卷积方法。

Deconvolution method for recovering the photon time-of-flight distribution from time-resolved measurements.

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