Laser & Optoelectronics Progress, Volume. 58, Issue 18, 1811022(2021)
Experimental Study on Imaging Through Scattering Medium in Natural Scene
[2] Xu X Q, Xie X S, He H X et al. Imaging objects through scattering layers and around corners by retrieval of the scattered point spread function[J]. Optics Express, 25, 32829-32840(2017).
[3] Wang X Y, Jin X, Li J Q et al. Prior-information-free single-shot scattering imaging beyond the memory effect[J]. Optics Letters, 44, 1423-1426(2019).
[4] Edrei E, Scarcelli G. Optical imaging through dynamic turbid media using the Fourier-domain shower-curtain effect[J]. Optica, 3, 71-74(2016).
[5] Kanaev A V, Watnik A T, Gardner D F et al. Imaging through extreme scattering in extended dynamic media[J]. Optics Letters, 43, 3088-3091(2018).
[6] Kim M K, Park C H, Rodriguez C et al. Superresolution imaging with optical fluctuation using speckle patterns illumination[J]. Scientific Reports, 5, 16525(2015).
[7] Liu Y H, Chen L, Liu W et al. Resolution-enhanced imaging through scattering media by high-order correlation[J]. Applied Optics, 58, 2350-2357(2019).
[8] Divitt S, Gardner D F, Watnik A T. Imaging around corners in the mid-infrared using speckle correlations[J]. Optics Express, 28, 11051-11064(2020).
[9] Vellekoop I M, Aegerter C M. Scattered light fluorescence microscopy: imaging through turbid layers[J]. Optics Letters, 35, 1245-1247(2010).
[11] Horstmeyer R, Ruan H W, Yang C H. Guidestar-assisted wavefront-shaping methods for focusing light into biological tissue[J]. Nature Photonics, 9, 563-571(2015).
[12] Hsu C W, Liew S F, Goetschy A et al. Correlation-enhanced control of wave focusing in disordered media[J]. Nature Physics, 13, 497-502(2017).
[14] Papadopoulos I N, Jouhanneau J S, Poulet J F A et al. Scattering compensation by focus scanning holographic aberration probing (F-SHARP)[J]. Nature Photonics, 11, 116-123(2017).
[15] Popoff S M, Lerosey G, Carminati R et al. Measuring the transmission matrix in optics: an approach to the study and control of light propagation in disordered media[J]. Physical Review Letters, 104, 100601(2010).
[16] Choi Y, Yoon C, Kim M et al. Scanner-free and wide-field endoscopic imaging by using a single multimode optical fiber[J]. Physical Review Letters, 109, 203901(2012).
[17] Mounaix M, Defienne H, Gigan S. Deterministic light focusing in space and time through multiple scattering media with a time-resolved transmission matrix approach (Conference Presentation)[J]. Proceedings of SPIE, 10073, 100730S(2017).
[18] Yaqoob Z, Psaltis D, Feld M S et al. Optical phase conjugation for turbidity suppression in biological samples[J]. Nature Photonics, 2, 110-115(2008).
[21] Judkewitz B, Horstmeyer R, Vellekoop I M et al. Translation correlations in anisotropically scattering media[J]. Nature Physics, 11, 684-689(2015).
[22] Li Y Z, Xue Y J, Tian L. Deep speckle correlation: a deep learning approach toward scalable imaging through scattering media[J]. Optica, 5, 1181-1190(2018).
[23] Stern G, Katz O. Noninvasive focusing through scattering layers using speckle correlations[J]. Optics Letters, 44, 143-146(2019).
[24] Feng S, Kane C, Lee P A et al. Correlations and fluctuations of coherent wave transmission through disordered media[J]. Physical Review Letters, 61, 834-837(1988).
[25] Helmchen F, Denk W. Deep tissue two-photon microscopy[J]. Nature Methods, 2, 932(2005).
[26] Freund I, Rosenbluh M, Feng S. Memory effects in propagation of optical waves through disordered media[J]. Physical Review Letters, 61, 2328-2331(1988).
[27] Fienup J R. Reconstruction of an object from the modulus of its Fourier transform[J]. Optics Letters, 3, 27-29(1978).
[28] Fienup J R. Phase retrieval algorithms: a comparison[J]. Applied Optics, 21, 2758-2769(1982).
[29] Wu T F, Katz O, Shao X P et al. Single-shot diffraction-limited imaging through scattering layers via bispectrum analysis[J]. Optics Letters, 41, 5003-5006(2016).
[30] Lohmann A W, Weigelt G, Wirnitzer B. Speckle masking in astronomy: triple correlation theory and applications[J]. Applied Optics, 22, 4028-4037(1983).
[31] Singh A K, Naik D N, Pedrini G et al. Exploiting scattering media for exploring 3D objects[J]. Light, Science & Applications, 6, e16219(2017).
[32] Okamoto Y, Horisaki R, Tanida J. Noninvasive three-dimensional imaging through scattering media by three-dimensional speckle correlation[J]. Optics Letters, 44, 2526-2529(2019).
[33] Lu X Y, Zhao C L, Cai Y J. Research progress on methods and applications for phase reconstruction under partially coherent illumination[J]. Chinese Journal of Lasers, 47, 0500016(2020).
[34] Guo C, Geng Y, Zhai Y L et al. Research progress on parameter-changed computational imaging techniques[J]. Laser & Optoelectronics Progress, 57, 160001(2020).
[35] Zuo C, Feng S J, Zhang X Y et al. Deep learning based computational imaging: status, challenges, and future[J]. Acta Optica Sinica, 40, 0111003(2020).
Get Citation
Copy Citation Text
Jietao Liu, Wei Li, Yuxiang Wu, Shunfu He, Mingrui Xia, Wenhai Liang, Zengzeng Fan, Yangfan Sun, Xiaopeng Shao. Experimental Study on Imaging Through Scattering Medium in Natural Scene[J]. Laser & Optoelectronics Progress, 2021, 58(18): 1811022
Category: Imaging Systems
Received: Jan. 13, 2021
Accepted: Mar. 5, 2021
Published Online: Aug. 28, 2021
The Author Email: Liu Jietao (liujt@xidian.edu.cn)