[1] Kim S C, Dong X B, Kim E S. Accelerated one-step generation of full-color holographic videos using a color-tunable novel-look-up-table method for holographic three-dimensional television broadcasting[J]. Scientific Reports, 2015, 5: 14056.

[2] Schnell M, Carney P S, Hillenbrand R. Synthetic optical holography for rapid nanoimaging[J]. Nature Communications, 2014, 5: 3499.

[3] Takaki Y, Taira K. Speckle regularization and miniaturization of computer-generated holographic stereograms[J]. Optics Express, 2016, 24(6): 6328-6340.

[4] Yoshikawa H, Yamaguchi T. Review of holographic printers for computer-generated holograms[J]. IEEE Transactions on Industrial Informatics, 2016, 12(4): 1584-1589.

[5] Hong K, Park S G, Yeom J, et al. Resolution enhancement of holographic printer using a hogel overlapping method[J]. Optics Express, 2013, 21(12): 14047-14055.

[6] Ishii N, Kato T, Abe J. A real-time dynamic holographic material using a fast photochromic molecule[J]. Scientific Reports, 2012, 2: 819.

[7] Wakunami K, Hsieh P Y, Oi R, et al. Projection-type see-through holographic three-dimensional display[J]. Nature Communications, 2016, 7: 12954.

[8] Yue Z J, Xue G L, Liu J, et al. Nanometric holograms based on a topological insulator material[J]. Nature Communications, 2017, 8: 15354.

[9] BjelkhagenH, Brotherton-RatcliffeD. Ultra-realistic imaging[M]. Boca Raton: CRC Press, 2016.

[10] Yamaguchi M, Ohyama N, Honda T. Holographic three-dimensional printer: new method[J]. Applied Optics, 1992, 31(2): 217-222.

[11] Halle MW. The generalized holographic stereogram[D]. Boston: Massachusetts Institute of Technology, 1991.

[12] Jones A. McDowall I, Yamada H, et al. Rendering for an interactive 360° light field display[J]. ACM Transactions on Graphics, 2007, 26(3): 40.

[13] Sánchez A M, Prieto D V. Design, development, and implementation of a low-cost full-parallax holoprinter[J]. Proceedings of SPIE, 2018, 10558: 105580H.

[14] Su J, Yan X P, Huang Y Q, et al. Progress in the synthetic holographic stereogram printing technique[J]. Applied Sciences, 2018, 8(6): 851.

[15] Su J, Yuan Q, Huang Y Q, et al. Method of single-step full parallax synthetic holographic stereogram printing based on effective perspective images' segmentation and mosaicking[J]. Optics Express, 2017, 25(19): 23523-23544.

[16] Su J, Yan X P, Huang Y Q, et al. Improvement of printing efficiency in holographic stereogram printing with the combination of a field lens and holographic diffuser[J]. Applied Optics, 2018, 57(25): 7159-7166.

[17] Su J, Yan X P, Jiang X Y, et al. Characteristic and optimization of the effective perspective images' segmentation and mosaicking (EPISM) based holographic stereogram: an optical transfer function approach[J]. Scientific Reports, 2018, 8: 4488.

[18] Jung J H, Kim J, Lee B. Solution of pseudoscopic problem in integral imaging for real-time processing[J]. Optics Letters, 2013, 38(1): 76-78.

[19] Okano F, Hoshino H, Arai J, et al. Real-time pickup method for a three-dimensional image based on integral photography[J]. Applied Optics, 1997, 36(7): 1598-1603.

[20] Martínez-Corral M, Javidi B, Martínez-Cuenca R, et al. Formation of real, orthoscopic integral images by smart pixel mapping[J]. Optics Express, 2005, 13(23): 9175-9180.

[21] Navarro H, Martínez-Cuenca R, Saavedra G, et al. 3D integral imaging display by smart pseudoscopic-to-orthoscopic conversion (SPOC)[J]. Optics Express, 2010, 18(25): 25573-25583.