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    Journals >Infrared and Laser Engineering >Volume 50 >Issue 11 >Page 20210484 > Article
    • Infrared and Laser Engineering
    • Vol. 50, Issue 11, 20210484 (2021)
    Research on super-resolution fluorescence microscopy imaging based on multiple measurement vector compressed sensing
    Saiwen Zhang1、2, Yaqi Deng1、2, Chong Wang1、2, Xiaoling Leng1、2, Guangfu Zhang1、2, Bing Wen1、2, Yangbao Deng1、2、*, Weishi Tan1、2, Ye Tian1、2, and Wenguo Li1、2
    Author Affiliations
  • 11. School of Information and Electronics Engineering, Hunan City University, Yiyang 413000, China
  • 2All-solid-state Energy Storage Materials and Devices Key Laboratory of Hunan Province, Hunan City University, Yiyang 413000, China
    • show less
    DOI: 10.3788/IRLA20210484 Cite this Article
    Saiwen Zhang, Yaqi Deng, Chong Wang, Xiaoling Leng, Guangfu Zhang, Bing Wen, Yangbao Deng, Weishi Tan, Ye Tian, Wenguo Li. Research on super-resolution fluorescence microscopy imaging based on multiple measurement vector compressed sensing[J]. Infrared and Laser Engineering, 2021, 50(11): 20210484 Copy Citation Text show less
    References

    [1] I M Khater, I R Nabi, G Hamarneh. A review of super-resolution single-molecule localization microscopy cluster analysis and quantification methods. Patterns, 1, 1-20(2020).

    [2] Yujie Sun, Xuanze Chen. Nobel Prize in Chemistry 2014: Uper-resolved fluorescence microscopy. University Chemistry, 30, 1-9(2015).

    [3] S T Hess, T Girirajan, M D Mason. Ultra-high resolution imaging by fluorescence photoactivation localization microscopy. Biophysical Journal, 91, 4258-4272(2006).

    [4] M J Rust, M Bates, X Zhuang. Sub-diffraction-limit imaging by stochastic optical reconstruction microscopy (STORM). Nature Methods, 3, 793-796(2006).

    [5] J Fölling, M Bossi, H Bock, et al. Fluorescence nanoscopy by ground-state depletion and single-molecule return. Nature Methods, 5, 943-945(2008).

    [6] Sihai You, Hongli Wang, Lei Feng, et al. Pulsar TOA estimation based on wavelet transform and compressed sensing. Infrared and Laser Engineering, 49, 0226001(2020).

    [7] Jianbo Wu, Zhengwu Lu, Yurong Guan, et al. SAR target recognition using feature fusion by 2 D compressive sensing with multiple random projection matrices. Infrared and Laser Engineering, 50, 20200531(2021).

    [8] L Zhu, W Zhang, D Elnatan, et al. Faster STORM using compressed sensing. Nature Methods, 9, 721-723(2012).

    [9] J Min, C Vonesch, H Kirshner, et al. FALCON: fast and unbiased reconstruction of high-density super-resolution microscopy data. Scientific Reports, 4, 4577(2014).

    [10] E Nehme, L E Weiss, T Michaeli, et al. Deep-STORM: Super-resolution single-molecule microscopy by deep learning. Optica, 5, 458-464(2018).

    [11] J Wu, S Li, S Zhang, et al. Fast analysis method for stochastic optical reconstruction microscopy using multiple measurement vector model sparse Bayesian learning. Optics Letters, 43, 3977(2018).

    [12] Tingwei Quan, Shaoqun Zeng, Xiaohua Lv. Comparison of algorithms for localization of single fluorescent molecule in super resolution imaging. Chinese Journal of Lasers, 37, 2714-2718(2010).

    [13] Hua Zhang, Liangcai Cao, Guofan Jin, et al. Progress on lensless digital holography imaging based on compressive sensing holographic algorithm. Laser & Optoelectronics Progress, 667, 9-19(2020).

    [14] Jun Ke, Linxia Zhang, Qun Zhou. Applications of compressive sensing in optical imaging. Acta Optica Sinica, 40, 0111006(2020).

    [15] J Min, J Jang, D Keum, et al. Fluorescent microscopy beyond diffraction limits using speckle illumination and joint support recovery. Scientific Reports, 3, 2075(2013).

    [16] H Babcock, Y M Sigal, X Zhuang. A high-density 3 D localization algorithm for stochastic optical reconstruction microscopy. Optical Nanoscopy, 1, 1-10(2012).

    [17] Biomedical Imaging Group, Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne. Superresolution microscopy metrics [EBOL]. [20210925]https:srm.epfl.chMetrics.

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    [1] Yutong Liu, Yan Li, Lu Jin, Huaxu Tang, Shun Wang, Yucong Wu, Yueshu Feng. System design of multi-resolution microscopic correlation imaging based on deep learning[J]. Infrared and Laser Engineering, 2023, 52(4): 20220461

    [2] Huan Wang, Liying Lang, Yajun Pang, Lei Zhang, Wei Zheng, Sixing Xi. Single-image super-resolution reconstruction for continuous-wave terahertz imaging systems[J]. Infrared and Laser Engineering, 2023, 52(1): 20220292

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    Saiwen Zhang, Yaqi Deng, Chong Wang, Xiaoling Leng, Guangfu Zhang, Bing Wen, Yangbao Deng, Weishi Tan, Ye Tian, Wenguo Li. Research on super-resolution fluorescence microscopy imaging based on multiple measurement vector compressed sensing[J]. Infrared and Laser Engineering, 2021, 50(11): 20210484
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