[1] Marieb E N, Hoehn K N. Human Anatomy & Physiology[M]. New Yk: Pearson Education, 2007: 132.
[2] Y Sando, D Barada, T Yatagai. Full-color holographic 3D display with horizontal full viewing zone by spatiotemporal-division multiplexing. Applied Optics, 57, 7622-7628(2018).
[3] Qionghua Wang, Chaochao Ji, Lei Li. Dual-view integral imaging 3D display by using orthogonal polarizer array and polarization switcher. Optics Express, 24, 9-16(2016).
[4] Y Sando, D Barada, T Yatagai. Optical rotation compensation for a holographic 3D display with a 360 degree horizontal viewing zone. Applied Optics, 55, 8589-8595(2016).
[5] Lin Yang, Haiwei Dong, Abdulhameed Alelaiwi. See in 3D: state of the art of 3D display technologies. Multimedia Tools and Applications, 75, 17121-17155(2016).
[6] Chang-Kun Lee, Park Soon-Gi, Moon Seokil. Viewing zone duplication of multi-projection 3D display system using uniaxial crystal. Optics Express, 24, 8458-8470(2016).
[7] C Wheatstone. Contributions to the physiology of vision-Part 1. On some remarkable, and hitherto unobserved, phenomena of binocular vision. Philosophical Transactions of the Royal Society of London, 128, 371-394(1838).
[8] Joonho Chang, Ki Moon Seung, Jung Kihyo. Glasses-type wearable computer displays: usability considerations examined with a 3D glasses case study. Applied Ergonomics, 61, 670-681(2018).
[9] KapteijnsG, E Bouchbinder, E Lerner. Universal nonphononic density of states in 2D, 3D, and 4D glasses. Physical Review Letters, 121, 055501-055506(2018).
[10] T Y Pang, T S T Lo, T Ellena. Fit, stability and comfort assessment of custom-fitted bicycle helmet inner liner designs, based on 3D anthropometric data. Applied Ergonomics, 68, 240-248(2018).
[11] Zhuming Feng, Fei Jiang, Ruimin Shen. Virtual glasses try-on based on large pose estimation. Procedia Computer Science, 131, 226-233(2018).
[12] Yang Lu, Shigang Wang, Wenting Zhao. Technology of virtual eyeglasses try-on system based on face pose estimation. Chinese Optics, 8, 582-588(2015).
[13] Hongen Liao, Iwahara Makoto, Hata Nobuhiko. High-quality integral videography using a multiprojector. Optics Express, 12, 1067-1076(2004).
[14] Dong Zhao, Baiquan Su, Guowen Chen. 360 degrees viewable floating autostereoscopic display using integral photography and multiple semitransparent mirrors. Optics Express, 23, 9812-9823(2015).
[15] Dongdong Teng, Yi Xiong, Lilin Liu. Multiview three-dimensional display with continuous motion parallax through planar aligned OLED microdisplays. Optics Express, 23, 6007-6019(2015).
[16] Mingcai Zhou, Haitao Wang, Weiming Li. A unified method for crosstalk reduction in multiview displays. Journal of Display Technology, 10, 500-507(2014).
[17] S Wanner, B Goldluecke. Variational light field analysis for disparity estimation and super-resolution. IEEE Trans Pattern Anal Machine Intell, 36, 606-619(2014).
[18] Jianlei Zhang, Xiaorui Wang, Xiongxiong Wu. Wide-viewing integral imaging using fiber-coupled monocentric lens array. Optics Express, 23, 23339-23347(2015).
[19] Hong Hua, Javidi Bahram. A 3D integral imaging optical see-through head-mounted display. Optics Express, 22, 13484-13491(2014).
[20] Y Takaki, Y Yamaguchi. Flat-panel see-through three-dimensional display based on integral imaging. Optics Letters, 40, 1873-1876(2015).
[21] Chang-Kun Lee, Seokil Moon, Seungjae Lee. Compact three-dimensional head-mounted display system with Savart plate. Optics Express, 24, 19531-19544(2016).
[22] Keehoon Hong, Jiwoon Yeom, Changwon Jang. Full-color lens-array holographic optical element for three-dimensional optical see-through augmented reality. Optics Letters, 39, 127-130(2014).
[23] Han-Ju Yeom, Hee-Jae Kim, Seong-Bok Kim. 3D holographic head mounted display using holographic optical elements with astigmatism aberration compensation. Optics Express, 23, 32025-32034(2015).
[24] Gang Li, Dukho Lee, Youngmo Jeong. Holographic display for see-through augmented reality using mirror-lens holographic optical element. Optics Letters, 41, 2486-2489(2016).
[25] Zhidong Chen, Xinzhu Sang, Qiaojun Lin. A see-through holographic head-mounted display with the large viewing angle. Optics Communications, 384, 125-129(2017).
[26] Long Zhu, Jian Wang. Arbitrary manipulation of spatial amplitude and phase using phase-only spatial light modulators. Scientific Reports, 4, 7441(2014).
[27] Zhidong Chen, Xinzhu Sang, Qiaojuan Lin. Acceleration for computer-generated hologram in head-mounted display with effective diffraction area recording method for eyes. Chinese Optics Letters, 14, 080901(2016).
[28] Haijuan Jia, Anduo Ma, Huixue Wang. Statistical analysis of people's use of mobile phones. KeJiFeng, 23, 241(2019).
[29] Wei Xie, Yazhou Wang, Huan Deng. Viewing angle-enhanced integral imaging system using three lens arrays. Chinese Optics Letters, 12, 011101(2014).
[30] Zhiqiang Yan, Xingpeng Yan, Xiaoyu Jiang. Integral imaging based light field display with enhanced viewing resolution using holographic diffuser. Optics Communications, 402, 437-441(2017).
[31] Xinran Zhang, Guowen Chen, Hongen Liao. High-quality see-through surgical guidance system using enhanced 3-D autostereoscopic augmented reality. IEEE Trans Biomed Eng, 64, 1815-1825(2017).
[32] Zhencheng Fan, Guowen Chen, Yan Xia. Accurate 3D autostereoscopic display using optimized parameters through quantitative calibration. Journal of the Optical Society of America A, 34, 804-812(2017).
[33] Zhencheng Fan, Sen Zhang, Yitong Weng. 3D quantitative evaluation system for autostereoscopic display. Journal of Display Technology, 12, 1185-1196(2016).
[34] P V Johnson, J A Parnell, J Kim. Dynamic lens and monovision 3D displays to improve viewer comfort. Optics Express, 24, 11808-11827(2016).
[35] J Hahn, H Kim, Y Lim. Wide viewing angle dynamic holographic stereogram with a curved array of spatial light modulators. Optics Express, 16, 12372-12386(2008).
[36] Chih-Hung Ting, Yu-Cheng Chang, Chun-Ho Chen. Multi-user 3D film on a time-multiplexed side-emission backlight system. Applied Optics, 55, 7922-7928(2016).
[37] Fattal David, Peng Zhen, Tran Tho. A multi-directional backlight for a wide-angle glasses-free three-dimensional display. Nature, 495, 348-351(2013).
[38] Junchang Li, Han-Yen Tu, Wei-Chieh Yeh. Holographic three-dimensional display and hologram calculation based on liquid crystal on silicon device. Applied Optics, 53, G222-G231(2014).
[39] Zhencheng Fan, Yitong Weng, Guowen Chen. 3D interactive surgical visualization system using mobile spatial information acquisition and autostereoscopic display. Journal of Biomedical Informatics, 71, 154-164(2017).
[40] Jason Geng. Three-dimensional display technologies. Advances in Optics and Photonics, 5, 456-535(2013).
[41] J Y Son, B Lavidi. Three-dimensional imaging method based on multiview images. Journal of Display Technology, 1, 125-140(2005).
[42] F E Ives. A novel stereogram. J Franklin Inst, 153, 51-52(1902).
[43] PeterkaT, R L Kooima, D J Sandin. Advances in the Dynallax solid-state dynamic parallax barrier autostereoscopic visualization display system. IEEE Trans Vis Comput Graph, 14, 487-499(2008).
[44] Se-Um Kim, Jiyoon Kim, Jeng-Hun Suh. Concept of active parallax barrier on polarizing interlayer for near-viewing autostereoscopic displays. Optics Express, 24, 25010-25018(2016).
[45] S K Yoon, S Khym, H W Kim. Variable parallax barrier spacing in autostereoscopic displays. Optics Communications, 370, 319-326(2016).
[46] Hess W. Stereoscopic picture: US, US1128979 [P]. 19150216.
[47] B-S Kim, S-C Lee, K-W Kim. Three dimensional analysis of the autostereoscopic display with an array of lenticulars. Molecular Crystals and Liquid Crystals, 612, 46-55(2015).
[48] Le Yang, Xinzhu Sang, Xunbo Yu. Demonstration of an improved integral imaging with large viewing angle based on two crossed lenticular lens combined arrays. Optik, 172, 578-584(2018).
[49] Tianqi Huang, Boxuan Han, Xinran Zhang. High-performance autostereoscopic display based on the lenticular tracking method. Optics Express, 27, 20421-20434(2019).
[52] Tib Balogh, Holografika Inc. https:holografika.com722rc.
[54] Chih-Hung Ting, Yu-Cheng Chang, Chun-Ho Chen. Multi-user 3D film on a time-multiplexed side-emission backlight system. Applied Optics, 55, 7922-7928(2016).
[55] Jinling Feng, Yijun Wang, Shiyu Liu. Three-dimensional display with directional beam splitter array. Optics Express, 25, 1564-1572(2017).
[56] Krebs Peter, Haowen Liang, Hang Fan. Homogeneous free-form directional backlight for 3D display. Optics Communications, 397, 112-117(2017).
[57] G Lippmann, réversibles Épreuves. Photographies integrals. C. R. Acad. Sci., 146, 446-451(1908).
[58] Qionghua Wang, Chaochao Ji, Lei Li. Dual-view integral imaging 3D display by using orthogonal polarizer array and polarization switcher. Optics Express, 24, 9-16(2016).
[59] Le Yang, Xinzhu Sang, Xunbo Yu. Viewing-angle and viewing-resolution enhanced integral imaging based on time-multiplexed lens stitching. Optics Express, 27, 15679-15692(2019).
[60] N Okaichi, M Miura, J Arai. Integral 3D display using multiple LCD panels and multi-image combining optical system. Optics Express, 25, 2805-2817(2017).
[61] M H Song, J S Jeong, M U Erdenebat. Integral imaging system using an adaptive lens array. Applied Optics, 55, 6399-6403(2016).
[62] Le Yang, Xinzhu Sang, Xunbo Yu. Demonstration of a large-size horizontal light-field display based on the LED panel and the micro-pinhole unit array. Optics Communications, 414, 140-145(2018).
[63] Chen Su, Haifeng Li. Review of research on light field 3D display applied to mixed reality. Journal of Computer-Aided Design & Computer Graphics, 28, 905-912(2016).
[64] Lanman Douglas, Hirsch Matthew, Yunhee. Content-adaptive parallax barriers: optimizing dual-layer 3D displays using low-rank light field factorization. ACM Transactions on Graphics, 29, 1-10(2010).
[65] Wetzstein Gordon, Lanman Douglas, Heidrich Wolfgang. Layered 3D: tomographic image synthesis for attenuation-based light field and high dynamic range displays. ACM Trans Graphics, 30, 95(2011).
[66] Lanman Douglas, Wetzstein Gordon, Hirsch Matthew. Polarization fields: dynamic light field display using multi-layer LCDs. ACM Transactions on Graphics, 30, 1(2011).
[67] Gordon Wetzstein, Douglas R Lanman, Matthew Waggener Hirsch. Tensor displays: compressive light field synthesis using multilayer displays with directional backlighting. ACM Trans Graphics, 31, 80(2012).
[68] Wang Shizheng, Zhuang Zhenfeng, Phil Surman, et al. Twolayer optimized light field display using depth initialization[C]2015 Visual Communications Image Processing (VCIP), 2015: 1−4.
[69] Jiahui Zhang, Zhencheng Fan, Dawei Sun. Unified mathematical model for multilayer-multiframe compressive light field displays using LCDs. IEEE Transactions on Visualization and Computer Graphics, 25, 1603-1614(2019).
[70] Duo Chen, Xinzhu Sang, Xunbo Yu. Performance improvement of compressive light field display with the viewing position dependent weight distribution. Optics Express, 24, 29781-29793(2016).
[71] Fattal David, Peng Zhen, Tran Tho. A multi-directional backlight for a wide-angle glasses-free three-dimensional display. Nature, 495, 348-351(2013).
[72] Wenqiang Wan, Wen Qiao, Donglin Pu. Holographic sampling display based on metagratings. ISCIENCE, 23, 100773(2020).
[73] Pei-Chia Wang, Sheue-Ling Hwang, Hsin-Ying Huang. System cross-talk and three-dimensional cue issues in autostereoscopic displays. Journal of Electronic Imaging, 22, 013032(2013).
[74] L Kooi Frank, Toet Alexander. Visual comfort of binocular and 3D displays. Displays, 25, 99-108(2004).
[75] Lili Wang, Teunissen Kees, Yan Tu. Crosstalk evaluation in stereoscopic displays. Journal of Display Technology, 7, 208-214(2011).
[76] Chieh Yao Chiang, Kuo Tsung Chen, Yu Cheng Chang. The effect of crosstalk for stereoscopic 3D ”dynamic” moving images. SID Symposium Digest of Technical Papers, 40, 808-811(2009).
[77] Sung-Kyu Kim, Ki-Hyuk Yoon, Seon-Kyu Yoon. Parallax barrier engineering for image quality improvement in an autostereoscopic 3D display. Optics Express, 23, 13230-13244(2015).
[78] Guojiao Lv, Baichuan Zhao, Fei Wu. Autostereoscopic 3D display with high brightness and low crosstalk. Applied Optics, 56, 2792-2795(2017).
[79] Le Yang, Xinzhu Sang, Xunbo Yu. A crosstalk-suppressed dense multi-view light-field display based on real-time light-field pickup and reconstruction. Optics Express, 26, 34412-34427(2018).
[80] Kun Li, Özgür Yöntem Ali, Yuanbo Deng. Full resolution auto-stereoscopic mobile display based on large scale uniform switchable liquid crystal micro-lens array. Optics Express, 25, 9654-9675(2017).
[81] Bochao Kan, Yan Zhao, Shigang Wang. A 3D video visual comfort evaluation method on the consistency of accommodation and convergence. Optoelectronics Letters, 13, 233-236(2017).
[82] Mizushina Haruki, Nakamura Junya, Takaki Yasuhiro. Super multi-view 3D displays reduce conflict between accommodative and vergence responses. Journal of the Society for Information Display, 24, 747-756(2016).