[1] Li S, Deng M, Lee J et al. Imaging through glass diffusers using densely connected convolutional networks[J]. Optica, 5, 803-813(2018).

[2] Rahmani B, Loterie D, Konstantinou G et al. Multimode optical fiber transmission with a deep learning network[J]. Light: Science & Applications, 7, 69(2018).

[3] Fan P F, Zhao T R, randomness inside multimode fibres[EB/OL]. -07-18)[2020-06-21]. https:∥arxiv., org/abs/1807, 09351(2018).

[4] Wang P, Di J L. Deep learning-based object classification through multimode fiber via a CNN-architecture SpeckleNet[J]. Applied Optics, 57, 8258-8263(2018).

[5] Lu H M, Li Y J, Uemura T et al. Low illumination underwater light field images reconstruction using deep convolutional neural networks[J]. Future Generation Computer Systems, 82, 142-148(2018).

[6] Zhao J, Sun Y Y, Zhu H B et al. Deep-learning cell imaging through Anderson localizing optical fiber[J]. Advanced Photonics, 1, 066001(2019). http://www.opticsjournal.net/Articles/Abstract?aid=OJ115eb2da4f0ab59a

[7] Vellekoop I M, Mosk A P. Focusing coherent light through opaque strongly scattering media[J]. Optics Letters, 32, 2309-2311(2007).

[8] Huang H L, Chen Z Y, Sun C Z et al. Focusing laser beams through opaque scattering media[J]. Chinese Journal of Lasers, 42, 0602004(2015).

[9] 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).

[10] Li C M Y. Optical phase conjugation (OPC) for focusing light through/inside biological tissue[J]. Infrared and Laser Engineering, 48, 0702001(2019).

[11] 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).

[12] Sun X Y, Wang J N, Li W et al. Dynamic target imaging through scattering media based on optical transmission matrix[J]. Chinese Journal of Lasers, 45, 1205001(2018).

[13] Li Y Z, Xue Y J. -09-26)[2020-06-21]. https:∥arxiv., org/abs/1806, 04139(2018).

[14] Sun Y W, Shi J H, Sun L et al. Image reconstruction through dynamic scattering media based on deep learning[J]. Optics Express, 27, 16032-16046(2019).

[15] Zhou L N, Xiao Y, Chen W. Imaging through turbid media with vague concentrations based on cosine similarity and convolutional neural network[J]. IEEE Photonics Journal, 11, 1-15(2019).

[16] Lyu M, Wang H, Li G W et al. Learning-based lensless imaging through optically thick scattering media[J]. Advanced Photonics, 1, 036002(2019). http://www.opticsjournal.net/Articles/Abstract?aid=OJcdeafc077f03aa8e

[17] Borhani N, Kakkava E, Moser C et al. Learning to see through multimode fibers[J]. Optica, 5, 960-966(2018).

[18] Ronneberger O, Fischer P, Brox T. U-net: convolutional networks for biomedical image segmentation[M]. ∥Navab N, Hornegger J, Wells W M, et al. Medical image computing and computer-assisted intervention-MICCAI 2015. Lecture notes in computer science. Cham: Springer, 9351, 234-241(2015).

[19] Huang G. Liu Z, van der Laurens M, et al. Densely connected convolutional networks[C]∥2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR), July 21-26, 2017, Honolulu, HI., 2261-2269(2017).

[20] Lin M, Chen Q, Yan S C et al. -03-04)[2020-06-21]. https:∥arxiv., org/abs/1312, 4400(2014).

[21] Haykin S, Bart K. Gradient based learning applied to document recognition[J]. Intelligent Signal Processing, 306-351(2001).