[1] D GABOR. A new microscopic principle. Nature, 161, 777-778(1948).
[2] F YARAS, H KANG, L ONURAL. State of the art in holographic displays: a survey. Journal of Display Technology, 6, 443-454(2010).
[3] Xin LI, Juan LIU, Tao ZHAO et al. Color dynamic holographic display with wide viewing angle by improved complex amplitude modulation. Optics Express, 26, 2349-2358(2018).
[4] L SHI, B LI, C KIM et al. Towards real-time photorealistic 3D holography with deep neural networks. Nature, 591, 234-239(2021).
[5] Jiachen WU, Kexuan LIU, Xiaomeng SUI et al. High-speed computer-generated holography using autoencoder-based deep neural network. Optics Letters, 46, 2908-2911(2021).
[6] Fuyang XU, Xing YANG, Jianyun YAO et al. High-resolution multi-view dynamic holographic 3D display. Chinese Journal of Lasers, 48, 158-165(2021).
[7] Yong LI, ShiJiang LU, Fang SONG et al. Three-dimensional capture and display of real scene with video speed. Acta Photonica Sinica, 40, 1706-1710(2011).
[8] A KOZMA, D L KELLY. Spatial filtering for detection of signals submerged in noise. Applied Optics, 4, 387-392(1965).
[9] B R BROWN, A W LOHMANN. Computer-generated binary holograms. IBM Journal of Research and Development, 13, 160-168(1969).
[10] M E LUCENTE. Interactive computation of holograms using a look-up table. Journal of Electronic Imaging, 2, 28-34(1993).
[11] S C KIM, E S KIM. Effective generation of digital holograms of three-dimensional objects using a novel look-up table method. Applied Optics, 47, D55-D62(2008).
[12] Y PAN, X XU, S SOLANKI et al. Fast CGH computation using S-LUT on GPU. Optics Express, 17, 18543-18555(2009).
[13] Jia JIA, Yongtian WANG, Juan LIU et al. Reducing the memory usage for effective computer-generated hologram calculation using compressed look-up table in full-color holographic display. Applied Optics, 52, 1404-1412(2013).
[14] H YOSHIKAWA. Fast computation of Fresnel holograms employing difference. Optical Review, 8, 331-335(2001).
[15] Yong LI, Fuyang XU, Hongzheng JING et al. A fast computation method for fresnel hologram. Acta Photonica Sinica, 39, 529-532(2010).
[16] T SHIMOBABA, N MASUDA, T ITO. Simple and fast calculation algorithm for computer-generated hologram with wavefront recording plane. Optics Letters, 34, 3133-3135(2009).
[17] D ARAI, T SHIMOBABA, K MURANO et al. Acceleration of computer-generated holograms using tilted wavefront recording plane method. Optics Express, 23, 1740-1747(2015).
[18] Yijie PAN, Yongtian WANG, Juan LIU et al. Fast polygon-based method for calculating computer-generated holograms in three-dimensional display. Applied Optics, 52, A290-A299(2013).
[19] K MATSUSHIMA, M NAKAMURA, S NAKAHARA. Silhouette method for hidden surface removal in computer holography and its acceleration using the switch-back technique. Optics Express, 22, 24450-24465(2014).
[20] L AHRENBERG, P BENZIE, M MAGNOR et al. Computer generated holograms from three dimensional meshes using an analytic light transport model. Applied Optics, 47, 1567-1574(2008).
[21] Yijie PAN, Yongtian WANG, Juan LIU et al. Improved full analytical polygon-based method using Fourier analysis of the three-dimensional affine transformation. Applied Optics, 53, 1354-1362(2014).
[22] Yan ZHAO, Liangcai CAO, Hao ZHANG et al. Accurate calculation of computer-generated holograms using angular-spectrum layer-oriented method. Optics Express, 23, 25440-25449(2015).
[23] Jia JIA, Jhen SI, Daping CHU. Fast two-step layer-based method for computer generated hologram using sub-sparse 2D fast Fourier transform. Optics Express, 26, 17487-17497(2018).
[24] Liangcai CAO, Zehao HE, Yan ZHAO et al. Computer-generated holographic algorithm based on layer structure using angular spectrum propagation theory(Invited). Infrared and Laser Engineering, 47, 11-19(2018).
[25] Yong LI, Hui WANG, Chaofu YING et al. A parallel algorithm for computer-generated hologram and it's realization based on high-speed local area network. Laser & Infrared, 32, 333-335(2002).
[26] J B JESSIE, W SHINPEI, O KANEMITSU et al. Decomposition method for fast computation of gigapixel-sized Fresnel holograms on a graphics processing unit cluster. Applied Optics, 57, 3134(2018).
[27] Xing YANG, Hui WANG, Yong LI et al. Large scale and high resolution computer generated synthetic color rainbow hologram. Journal of Optics, 21, 025601(2019).
[28] Xing YANG, Fuyang XU, Heng ZHANG et al. High-resolution hologram calculation method based on light field image rendering. Applied Sciences, 10, 819-828(2020).
[29] J H PARK. Efficient calculation scheme for high pixel resolution non-hogel-based computer generated hologram from light field. Optics Express, 28, 6663-6683(2020).