[1] NOMURA T, OKAZAKI A, KAMEDA M et al. Digital holographic data reconstruction with data compression[J]. Society of Photo-Optical Instrumentation Engineers Conference on Algorithms and Systems for Optical Information Processing, 4471, 235-242(2001).

[2] BOVE V M. Display holography's digital second act[J]. Proceedings of IEEE, 100, 918-928(2012).

[3] YOUSSEF A, HESHMAT S. 3D holographic compression methods for real time applications[C], 136-139(2018).

[4] DUFAUX F, XING Y, PESQUET-POPESCU B et al. Compression of digital holographic data: an overview[J]. Applications of Digital Image Processing XXXVIII, 9599, 163-173(2015).

[5] XING Y, KAANICHE M, PESQUET-POPESCU B et al. Vector lifting scheme for phase-shifting holographic data compression[J]. Optical Engineering, 53, 112312(2014).

[6] BOLIEK M, CHRISTOPOULOS C, MAJANI E[S]. Information technology JPEG2000 image coding system: ISO/IEC JTC1/SC29/WG1 N1646R-2000, 15444-1(2000).

[7] JIAO S, JIN Z, CHANG C et al. Compression of phase-only holograms with JPEG standard and deep learning[J]. Applied Sciences, 8, 1258(2018).

[8] SHORTT A E, NAUGHTON T J, JAVIDI B. Nonuniform quantization compression techniques for digital holograms of three-dimensional objects[J]. Optical Information Systems II, 5557, 30-41(2004).

[9] NAUGHTON T J, FRAUEL Y, JAVIDI B et al. Compression of digital holograms for three-dimensional object reconstruction and recognition[J]. Applied Optics, 41, 4124-4132(2002).

[10] CHEREMKHIN P A, KURBATOVA E A. Wavelet compression of off-axis digital holograms using real/imaginary and amplitude/phase parts[J]. Scientific Reports, 9, 129439(2019).

[11] HAJIHASHEMI V, NAJAFABADI H E, GHARAHBAGH A A et al. A novel high-efficiency holography image compression method, based on HEVC, Wavelet, and nearest-neighbor interpolation[J]. Multimedia Tools and Applications, 80, 31953-31966(2021).

[12] HOU S, YANG G, XIE H. Optimized initial weight in quantum-inspired neural network for compressing computer-generated holograms[J]. Optical Engineering, 58, 053105(2019).

[13] KO H, KIM H Y. Deep learning-based compression for phase-only hologram[J]. IEEE Access, 9, 79735-79751(2021).

[14] LIU Zhiqiang, SONG Qinghe, LIU Chao et al. Fresnel diffraction calculation with virtual light wave field and its application to color digital holography[J]. Journal of Applied Optics, 39, 196-199(2018).

[15] CHEN Yu, ZHANG Zhengping, WANG Jing et al. Flourescence spectrum denoising of quantum dots based on improved wavelet threshold[J]. Journal of Applied Optics, 37, 397-401(2016).

[16] LI Junchang, XIONG Bingheng[M]. Information Optics Tutorial, 200-204(2017).

[17] JIN Guofan[M]. Computer generated holograms, 70-78(2020).

[18] BU Haozhen, JIAO Shuming. Review of computer-generated phase-only hologram optimization algorithm[J]. Chinese Journal of Liquid Crystals and Displays, 36, 810-826(2021).

[19] CAI Xiaoou, WANG Hui, LI Yong et al. Hologram compression by wavelet analysis[J]. Acta Photonica Sinica, 738-743(2000).

[20] SCHELKENS P[M]. The JPEG 2000 suite(2009).

[21] ALI Z, QUANG P D, PARK J H et al. Compression of digital hologram for three-dimensional object using wavelet-bandelets transform[J]. Optics Express, 19, 8019-8031(2011).

[22] KURBATOVA E A, CHEREMKHIN P A, EVTIKHIEV N N. Methods of compression of digital holograms, based on 1-level wavelet transform[J]. Journal of Physics:Conference Series, 737, 012071(2016).