Analytical Fiber ODF Reconstruction in 3D Polarized Light Imaging: Performance Assessment

机译：3D偏振光成像中的分析光纤ODF重建：性能评估

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Three dimensional Polarized Light Imaging (3D-PLI) allows to map the spatial fiber structure of postmortem tissue at a sub-millimeter resolution, thanks to its birefringence property. Different methods have been recently proposed to reconstruct the fiber orientation distribution function (fODF) from high-resolution vector data provided by 3D-PLI. Here, we focus on the analytical fODF computation approach, which uses the spherical harmonics to represent the fODF and analytically computes the spherical harmonics coefficients via the spherical Fourier transform. This work deals with the assessment of the performance of this approach on rich synthetic data which simulates the geometry of the neuronal fibers and on human brain dataset. A computational complexity and robustness to noise analysis demonstrate the interest and great potential of the approach.

机译：凭借其双折射特性，三维偏振光成像（3D-PLI）可以绘制亚毫米分辨率的死后组织的空间纤维结构。最近已经提出了不同的方法来从3D-PLI提供的高分辨率矢量数据中重建纤维取向分布函数（fODF）。在这里，我们集中于解析fODF计算方法，该方法使用球谐函数来表示fODF，并通过球傅立叶变换来解析计算球谐系数。这项工作涉及评估这种方法在丰富的合成数据（模拟神经元纤维的几何形状）和人脑数据集上的性能的评估。噪声分析的计算复杂性和鲁棒性证明了该方法的重要性和巨大潜力。

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《IEEE International Symposium on Biomedical Imaging》|2019年|1652-1655|共4页
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A. Alimi; S. Deslauriers-Gauthier; F. Matuschke; D. Schmitz; M. Axer; R. Deriche;
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Image reconstruction; Noise measurement; Imaging; Three-dimensional displays; Distribution functions; Harmonic analysis; Spatial resolution;

机译：图像重建噪声测量成像三维显示分布函数谐波分析空间分辨率;

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专利

1. Rigid and non-rigid registration of polarized light imaging data for 3D reconstruction of the temporal lobe of the human brain at micrometer resolution [J] . Sharib Ali, Stefan W?rz, Katrin Amunts, NeuroImage . 2018,第期

机译：偏振光成像数据的刚性和非刚性注册，用于千分尺分辨率的人脑时间叶的三维重建
2. Estimating Fiber Orientation Distribution Functions in 3D-Polarized Light Imaging [J] . Markus Axer, Sven Strohmer, David Gr??el, Frontiers in Neuroanatomy . 2016,第10期

机译：估计3D偏振光成像中的纤维取向分布函数
3. Understanding fiber mixture by simulation in 3D Polarized Light Imaging [J] . Dohmen Melanie, Menzel Miriam, Wiese Hendrik, NeuroImage . 2015,第Null期

机译：通过3D偏振光成像中的仿真了解光纤混合物
4. Analytical Fiber ODF Reconstruction in 3D Polarized Light Imaging: Performance Assessment [C] . A. Alimi, S. Deslauriers-Gauthier, F. Matuschke, IEEE International Symposium on Biomedical Imaging . 2019

机译：3D偏振光成像中的分析纤维ODF重建：性能评估
5. Adaptive Structured Light Imaging with Exposure and Focus Fusion for 3D Reconstruction and Autonomous Robotic Exploration. [D] . Boyer, Alain. 2010

机译：具有曝光和聚焦融合的自适应结构光成像技术，用于3D重建和自主机器人探索。
6. Derivation of Fiber Orientations From Oblique Views Through Human Brain Sections in 3D-Polarized Light Imaging [O] . Daniel Schmitz, Sascha E. A. Muenzing, Martin Schober, 2018

机译：通过3D偏振光成像中人脑切片的斜视图得出的纤维取向
7. Analytical Fiber ODF Reconstruction in 3D Polarized Light Imaging: Performance Assessment [O] . A. Alimi, S. Deslauriers-Gauthier, F. Matuschke, 2019

机译：3D偏振光成像中的分析纤维ODF重建：性能评估

Analytical Fiber ODF Reconstruction in 3D Polarized Light Imaging: Performance Assessment

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