Modern Statistical Challenges in High-Resolution Fluorescence Microscopy

Timo Aspelmeier; Alexander Egner; Axel Munk

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Modern Statistical Challenges in High-Resolution Fluorescence Microscopy

机译：高分辨率荧光显微镜的现代统计挑战

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Conventional light microscopes have been used for centuries for the study of small length scales down to approximately 250 nm. Images from such a microscope are typically blurred and noisy, and the measurement error in such images can often be well approximated by Gaussian or Poisson noise. In the past, this approximation has been the focus of a multitude of deconvolution techniques in imaging. However, conventional microscopes have an intrinsic physical limit of resolution. Although this limit remained unchallenged for a century, it was broken for the first time in the 1990s with the advent of modern superresolution fluorescence microscopy techniques. Since then, superresolution fluorescence microscopy has become an indispensable tool for studyingthe structure and dynamics of living organisms. Current experimental advances go to the physical limits of imaging, where discrete quantum effects are predominant. Consequently, this technique

机译：数百年来，传统的光学显微镜已被用于研究小至250 nm左右的小尺寸鳞片。来自这种显微镜的图像通常模糊且嘈杂，并且此类图像中的测量误差通常可以由高斯或泊松噪声很好地近似。过去，这种近似一直是成像中多种反卷积技术的重点。然而，常规显微镜具有分辨率的固有物理极限。尽管这个极限在一个世纪内一直没有受到挑战，但随着现代超分辨率荧光显微镜技术的出现，它在1990年代首次被打破。从那时起，超分辨率荧光显微镜已成为研究活生物体的结构和动力学的必不可少的工具。当前的实验进展达到了成像的物理极限，其中离散量子效应占主导。因此，这种技术

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《Annual Review of Statistics and Its Application》 |2015年第null期|共40页
作者
Timo Aspelmeier; Alexander Egner; Axel Munk;
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正文语种 eng
中图分类统计学;
关键词
fluorescence nanoscale microscopy; superresolution; deconvolution; nanoscopy; sparse regularization; variational multiresolution statistic; statistical imaging; sub-Poisson imaging; geometric thinning; convex optimization;

机译：荧光纳米级显微镜;超分辨率;反卷积;纳米镜;稀疏正则化;变分多分辨率统计;统计成像;亚泊松成像;几何细化;凸优化;

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1. Modern Statistical Challenges in High-Resolution Fluorescence Microscopy [J] . Timo Aspelmeier, Alexander Egner, Axel Munk Annual Review of Statistics and Its Application . 2015,第Null期

机译：高分辨率荧光显微镜的现代统计挑战
2. Statistical filtering in fluorescence microscopy and fluorescence correlation spectroscopy [J] . Radek Macháň, Peter Kapusta, Martin Hof Analytical and bioanalytical chemistry . 2014,第20期

机译：荧光显微镜和荧光相关光谱中的统计过滤
3. Autofluorescence in embryos and larvae of the giant clam Tridacna noae: challenges and opportunities for epifluorescence microscopy [J] . Braley Richard D., Militz Thane A., Southgate Paul C. Journal of Molluscan Studies . 2018,第Pta4期

机译：巨型蛤仔曲克纳Noae的胚胎和幼虫中的自发荧光：抗渗透显微镜的挑战和机会
4. Super-resolution light-sheet add-on microscopy (SLAM) enabling isotropic high-resolution 3D imaging on conventional epifluorescence microscope [C] . Fang Zhao, Lanxin Zhu, Chunyu Fang, Conference on Lasers and Electro-Optics Pacific Rim . 2020

机译：超分辨率光片附加显微镜（SLAM），可在常规落射荧光显微镜上实现各向同性高分辨率3D成像
5. Development and biological applications of high-resolution ion beam induced fluorescence microscopy [D] . Zhaohong, Mi. 2015

机译：高分辨率离子束诱导荧光显微镜的发展及其生物学应用
6. High-resolution in vivo multimodal photoacoustic microscopy optical coherence tomography and fluorescence microscopy imaging of rabbit retinal neovascularization [O] . Wei Zhang, Yanxiu Li, Van Phuc Nguyen, 2018

机译：兔视网膜新血管形成的高分辨率体内多模式光声显微镜光学相干断层扫描和荧光显微镜成像
7. High-resolution, in vivo multimodal photoacoustic microscopy, optical coherence tomography, and fluorescence microscopy imaging of rabbit retinal neovascularization [O] . Wei Zhang, Yanxiu Li, Van Phuc Nguyen, 2018

机译：高分辨率，体内多模式光声显微镜，光学相干断层扫描和兔视网膜内血管化的荧光显微镜显像

Modern Statistical Challenges in High-Resolution Fluorescence Microscopy

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