基于光学传递函数正则化的大视场荧光显微数据盲反卷积

M. Keuper, Thorsten Schmidt, Maja Temerinac-Ott, Jan Padeken, P. Heun, O. Ronneberger, T. Brox
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引用次数: 20

摘要

利用宽视场荧光显微镜的体积数据,正在研究生物学和生物医学研究中的许多新问题。数据可以记录高时间分辨率,而试样只暴露在一个低量的光毒性。这些优点的代价是由无限扩展点扩散函数(PSF)引起的强烈的记录模糊。对于宽视场显微镜,其大小仅随到焦点距离的平方而衰减,并由一个在空间域中难以描述的airy贝塞尔图案组成。然而,非相干PSF的傅里叶变换(表示为光学传递函数(OTF))是很好的局部化和光滑的。在本文中,我们提出了一种盲反褶积方法,利用宽场OTF的特性,改进了目前最先进的反褶积方法在宽场数据上的结果。
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Blind Deconvolution of Widefield Fluorescence Microscopic Data by Regularization of the Optical Transfer Function (OTF)
With volumetric data from wide field fluorescence microscopy, many emerging questions in biological and biomedical research are being investigated. Data can be recorded with high temporal resolution while the specimen is only exposed to a low amount of photo toxicity. These advantages come at the cost of strong recording blur caused by the infinitely extended point spread function (PSF). For wide field microscopy, its magnitude only decays with the square of the distance to the focal point and consists of an airy bessel pattern which is intricate to describe in the spatial domain. However, the Fourier transform of the incoherent PSF (denoted as Optical Transfer Function (OTF)) is well localized and smooth. In this paper, we present a blind deconvolution method that improves results of state-of-the-art deconvolution methods on wide field data by exploiting the properties of the wide field OTF.
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