Thorsten Schmidt, J. Dürr, M. Keuper, T. Blein, K. Palme, O. Ronneberger
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引用次数: 2
摘要
我们提出了一种方法来恢复厚样品的无衰减强度,这是由标准共聚焦显微镜从两个视图(顶部和底部)成像。变分方法同时估计了每个位置的局部信号衰减和真实无衰减强度。与先前的工作相比,我们引入了一种改进的图像形成模型,该模型使用泊松图像统计来模拟光漂白和光子噪声。我们研究了不同的正则化方法对吸收场的影响(Tikhonov-Miller, Total Variation和sparsity),以及与正交子空间投影相比,约束优化的好处。我们量化了该方法对合成样品的有效性,并展示了其在两个实际生物学应用中的普遍适用性,即斑马鱼胚胎和拟南芥根尖的记录。
Variational attenuation correction of two-view confocal microscopic recordings
We present an approach to recover attenuation-free intensities of a thick sample, that is imaged by a standard confocal microscope from two views (top and bottom). A variational approach simultaneously estimates the local signal attenuation and the real attenuation-free intensity at each position. Compared to earlier work we introduce a refined image formation model, that models photo-bleaching and photon noise using Poisson image statistics. We examine the effects of different regularization methods on the absorption field (Tikhonov-Miller, Total Variation, and sparsity) and the benefit of a constrained optimization in comparison to an orthogonal subspace projection. We quantify the efficacy of the approach on synthetically generated samples, and show its general applicability on two real biological applications, namely the recordings of zebrafish embryos and Arabidopsis thaliana root tips.
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