Model-based iterative reconstruction for neutron laminography

2017 51st Asilomar Conference on Signals, Systems, and Computers Pub Date : 2017-10-01 DOI:10.1109/ACSSC.2017.8335686

S. Venkatakrishnan, E. Cakmak, Hassina Billheux, P. Bingham, Richard Archibald

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引用次数: 7

Abstract

Neutron-based parallel-beam laminography is an important 3D characterization tool because it can image thick specimens with unique shapes and provides a complimentary contrast to X-rays for several elements relevant to the material sciences and biology. However, the inversion of neutron laminography data is complicated because of the non-traditional geometry of the set-up, the presence of noise and the occurrence of gamma hits on the detector during the course of an experiment. In this paper, we present a model-based/regularized-inversion reconstruction algorithm for neutron laminography. We introduce a new forward-model/data fitting term and combine it with a flexible regularizer function to formulate the reconstruction as minimizing a cost-function. We then present a novel optimization algorithm that is based on combining a majorization-minimization technique with a first-order method that is amenable to simple parallelization on multi-core architectures. Using simulated and experimental data, we demonstrate that it is possible to acquire high quality reconstructions compared to the typically used filtered-back projection algorithm and algebraic reconstruction techniques.

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基于模型的中子层析迭代重建

基于中子的平行束层析成像是一种重要的3D表征工具，因为它可以成像具有独特形状的厚样品，并为与材料科学和生物学相关的几个元素提供与x射线的互补对比。然而，中子层析数据的反演是复杂的，因为非传统的几何结构，存在的噪声和伽玛命中的探测器在实验过程中。本文提出了一种基于模型/正则化反演的中子层析重建算法。我们引入了一个新的前向模型/数据拟合项，并将其与一个灵活的正则化函数结合起来，将重构表述为最小化成本函数。然后，我们提出了一种新的优化算法，该算法基于最大化最小化技术和一阶方法的结合，该方法适用于多核架构上的简单并行化。利用模拟和实验数据，我们证明了与通常使用的滤波后向投影算法和代数重建技术相比，它可以获得高质量的重建。

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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来源期刊

2017 51st Asilomar Conference on Signals, Systems, and Computers

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