[1] I. M. Vellekoop, A. P. Mosk. Focusing coherent light through opaque strongly scattering media. Opt. Lett., 32, 2309(2007).
[2] A. P. Mosk, A. Lagendijk, G. Lerosey, M. Fink. Controlling waves in space and time for imaging and focusing in complex media. Nature Photon., 6, 283(2012).
[3] E. Edrei, G. Scarcelli. Memory-effect based deconvolution microscopy for super-resolution imaging through scattering media. Sci. Rep., 6, 33558(2016).
[4] N. Antipa, G. Kuo, R. Heckel, B. Mildenhall, E. Bostan, R. Ng, L. Waller. DiffuserCam: lensless single-exposure 3D imaging. Optica, 5, 1(2018).
[5] S. K. Sahoo, D. Tang, C. Dang. Single-shot multispectral imaging with a monochromatic camera. Optica, 4, 1209(2017).
[6] J. Bertolotti, E. G. van Putten, C. Blum, A. Lagendijk, W. L. Vos, A. P. Mosk. Non-invasive imaging through opaque scattering layers. Nature, 491, 232(2012).
[7] O. Katz, P. Heidmann, M. Fink, S. Gigan. Non-invasive single-shot imaging through scattering layers and around corners via speckle correlations. Nature Photon., 8, 784(2014).
[8] T. Wu, O. Katz, X. Shao, S. Gigan. Single-shot diffraction-limited imaging through scattering layers via bispectrum analysis. Opt. Lett., 41, 5003(2016).
[9] M. Cua, E. Zhou, C. Yang. Imaging moving targets through scattering media. Opt. Express, 25, 3935(2017).
[10] X. Li, J. A. Greenberg, M. E. Gehm. Single-shot multispectral imaging through a thin scatterer. Optica, 6, 864(2019).
[11] W. Li, T. Xi, S. He, L. Liu, J. Liu, F. Liu, B. Wang, S. Wei, W. Liang, Z. Fan, Y. Sun, Y. Wang, X. Shao. Single-shot imaging through scattering media under strong ambient light interference. Opt. Lett., 46, 4538(2021).
[12] D. Wang, S. K. Sahoo, X. Zhu, G. Adamo, C. Dang. Non-invasive super-resolution imaging through dynamic scattering media. Nat. Commun., 12, 3150(2021).
[13] J. Chen, X. Su. Principle and Application of Optical Information Technology(2009).
[14] X. Wang, H. Liu, M. Chen, Z. Liu, S. Han. Imaging through dynamic scattering media with stitched speckle patterns. Chin. Opt. Lett., 18, 042604(2020).
[15] H. Li, T. Wu, J. Liu, C. Gong, X. Shao. Simulation and experimental verification for imaging of gray-scale objects through scattering layers. Appl. Opt., 55, 9731(2016).
[16] C. Guo, J. Liu, T. Wu, L. Zhu, X. Shao. Tracking moving targets behind a scattering medium via speckle correlation. Appl. Opt., 57, 905(2018).
[17] L. Zhu, Y. Wu, J. Liu, T. Wu, L. Liu, X. Shao. Color imaging through scattering media based on phase retrieval with triple correlation. Opt. Lasers Eng., 124, 105796(2020).
[18] S. Feng, C. Kane, P. A. Lee, A. D. Stone. Correlations and fluctuations of coherent wave transmission through disordered media. Phys. Rev. Lett., 61, 834(1988).
[19] I. Freund, M. Rosenbluh, S. Feng. Memory effects in propagation of optical waves through disordered media. Phys. Rev. Lett., 61, 2328(1988).
[20] P. R. Seem, J. D. Buchanan, R. P. Cowburn. Impact of surface roughness on laser surface authentication signatures under linear and rotational displacements. Opt. Lett., 34, 3175(2009).
[21] M. Hofer, C. Soeller, S. Brasselet, J. Bertolotti. Wide field fluorescence epi-microscopy behind a scattering medium enabled by speckle correlations. Opt. Express, 26, 9866(2018).
[22] J. R. Fienup. Reconstruction of an object from the modulus of its Fourier transform. Opt. Lett., 3, 27(1978).
[23] J. R. Fienup. Phase retrieval algorithms: a comparison. Appl. Opt., 21, 2758(1982).
[24] S. Fadnavis. Image interpolation techniques in digital image processing: an overview. Int. J. Eng. Res. Appl., 4, 5(2014).
[25] R. Keys. Cubic convolution interpolation for digital image processing. IEEE Trans. Acoust., Speech, Signal Process., 29, 1153(1981).
[26] P. Shirley. Fundamentals of Computer Graphics(2009).
[27] J. Farrell, M. Okincha, M. Parmar, B. Wandell. Using visible SNR (vSNR) to compare the image quality of pixel binning and digital resizing. Proc. SPIE, 7537, 75370C(2010).
