[1] Bromberg Y, Katz O, Silberberg Y. Ghost imaging with a single detector[J]. Physical Review A, 79, 053840(2009).

[2] Edgar M P, Gibson G M, Padgett M J. Principles and prospects for single-pixel imaging[J]. Nature Photonics, 13-20(2013).

[3] Durán V, Soldevila F, Irles E, et al. Compressive imaging in scattering media[J]. Optics Express, 23, 14424(2015).

[4] Gibson A P, Hebden J C, Arridge S R. Recent advances in diffuse optical imaging[J]. Physics in Medicine & Biology, 50, R1(2005).

[5] Gong W, Han S. Correlated imaging in scattering media[J]. Optics Letters, 36, 394-396(2011).

[6] [6] Fan X H. Research of singlepixel imaging experiment based on spatial light modulat[D]. Luoyang: Zhengzhou University, 2017. (in Chinese)

[7] Zhao Z D, Yang Z H, Li G L. Sub-Nyquist single-pixel imaging by optimizing sampling basis[J]. Optics and Precision Engineering, 29, 1008-1013(2021).

[8] Ma Y Q, Zhang Z J, Wu C Q. Experiment study on ghost imaging in strong absorption and weakscattering media[J]. Optical Instruments, 42, 58-62(2020).

[9] Ferri F, Magatti D, Lugiato L A, et al. Differential ghost imaging[J]. Physical Review Letters, 104, 253603(2010).

[10] Donoho D L. Compressed sensing[J]. IEEE Transactions on Information Theory, 52, 1289-1306(2006).

[11] Katz O, Bromberg Y, Silberberg Y. Compressive ghost imaging[J]. Applied Physics Letters, 95, 739.433(2009).

[12] Tropp J A, Gilbert A C. Signal recovery from random measurements via orthogonal matching pursuit[J]. IEEE Transactions on Information Theory, 53, 4655-4666(2007).

[13] Wen Z B, Wu Y L, Zhang X D, et al. A real time imaging method for internal targets of strongly scattering media with high resolution[J]. Acta Optica Sinica, 35, 0211006(2015).

[14] Candès E J, Wakin M B, Boyd S P. Enhancing sparsity byreweighted L1 minimization[J]. Journal of Fourier Analysis and Applications, 14, 877-905(2008).

[15] Tajahuerce E, Durán V, Clemente P, et al. Image transmission through dynamic scattering media by single-pixel photodetection[J]. Optics Express, 22, 16945-16955(2014).

[16] Rudin L I, Osher S, Fatemi E. Nonlinear total variation based noise removal algorithms[J]. Physica D Nonlinear Phenomena, 60, 259-268(1992).

[17] Stantchev R I, Sun B Q, Hornett S M, . et al. Noninvasive, near-field terahertz imaging of hidden objects using a single-pixel detector[J]. Science Advances, 6, e1600190(2016).

[18] Li C, Yin W, Jiang H, et al. An efficient augmented Lagrangian method with applications to total variation minimization[J]. Computational Optimization and Applications, 56, 507-530(2013).

[19] Zhao X, Liu T J, Chen P, et al. Extending dynamic range of detector in non-contact diffuse optical tomography system using deep learning[J]. Optics and Precision Engineering, 9, 1-10(2021).

[20] Yang X, Jiang P F, Wu L, et al. Underwater Fourier single pixel imaging based on water degradation function compensation method[J]. Infrared and Laser Engineering, 49, 20200281(2020).

[21] Lu D X, Fang W H, Li Y Y, et al. Optical coherence tomography: Principles and recentdevelopments[J]. Chinese Optics, 13, 919-935(2020).

[22] Zheng S S, Yang W Q, Situ G H. Application of computational optical imaging in scattering[J]. Infrared and Laser Engineering, 48, 0603005(2019).

[23] Liu M X, Zhang X, Wang L J, Shi G W. Optimizationof matching coded aperture with detector based on compressed sensing spectral imaging technology[J]. Chinese Optics, 13, 290-301(2020).