Interferometric Synthetic Aperture Microscopy: Physics-Based Image Reconstruction from Optical Coherence Tomography Data

2007 IEEE International Conference on Image Processing Pub Date : 2007-11-12 DOI:10.1109/ICIP.2007.4379975

B. Davis, T. Ralston, D. Marks, S. Boppart, P. Carney

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引用次数: 4

Abstract

Optical coherence tomography (OCT) is an optical ranging technique analogous to radar - detection of back-scattered light produces a signal that is temporally localized at times-of-flight corresponding to the location of scatterers in the object. However the interferometric collection technique used in OCT allows, in principle, the coherent collection of data, i.e. amplitude and phase information can be extracted. Interferometric synthetic aperture microscopy (ISAM) adds phase-stable data collection to OCT instrumentation and employs physics-based processing analogous to that used in synthetic aperture radar (SAR). That is, the complex nature of the coherent data is exploited to give gains in image quality. Specifically, diffraction-limited resolution is achieved throughout the sample, not just within focal volume of the illuminating field. Simulated and experimental verifications of this effect are presented. ISAM's computational focusing obviates the trade-off between lateral resolution and depth-of-focus seen in traditional OCT.

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干涉合成孔径显微镜:基于物理的光学相干层析成像数据图像重建

光学相干层析成像(OCT)是一种类似于雷达的光学测距技术，对后散射光进行探测，产生的信号在与物体中散射体的位置相对应的飞行时间被暂时定位。然而，OCT中使用的干涉采集技术原则上允许相干的数据采集，即可以提取振幅和相位信息。干涉合成孔径显微镜(ISAM)为OCT仪器增加了相位稳定的数据收集，并采用类似于合成孔径雷达(SAR)中使用的基于物理的处理。也就是说，利用相干数据的复杂性来提高图像质量。具体来说，在整个样品中实现衍射限制分辨率，而不仅仅是在照明场的焦点体积内。对这一效应进行了仿真和实验验证。ISAM的计算聚焦消除了传统OCT中横向分辨率和聚焦深度之间的权衡。

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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2007 IEEE International Conference on Image Processing

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