Investigation on Encoder-Decoder Networks for Segmentation of Very Degraded X-Ray CT Tomograms

Computer Science Research Notes Pub Date : 2023-07-01 DOI:10.24132/csrn.3301.3
Idris Dulau, M. Beurton-Aimar, Yeykuang Hwu, B. Recur
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Abstract

Field of View Nano-CT X-Ray synchrotron imaging is used for acquiring brain neuronal features from Golgi-stained bio-samples. It theoretically requires a large number of acquired radiographs for compensating reconstruction noise reinforced by the brain features sparsity. However reducing the number of radiographs is essential in routine applications but it results to degraded tomograms. In such a case, traditional segmentation methods are no longer able to distinguish neuronal structures from surrounding noise. We investigate several existing deep-learning networks and we define new ones to segment brain features from very degraded tomograms. We demonstrate the superiority of the proposed networks compared to existing ones.
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严重退化x射线CT断层图像分割的编码器-解码器网络研究
纳米ct x射线同步加速器成像用于获取高尔基染色生物样品的脑神经细胞特征。理论上需要大量的获得的x线片来补偿由于脑特征稀疏而增强的重建噪声。然而,减少x线片的数量在常规应用中是必不可少的,但它会导致层析图像的降级。在这种情况下,传统的分割方法不再能够从周围的噪声中区分神经元结构。我们研究了几个现有的深度学习网络,并定义了新的网络来从非常退化的断层图中分割大脑特征。我们证明了与现有网络相比,所提出的网络的优越性。
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Computer Science Research Notes
Computer Science Research Notes
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