Optoelectronic Technology, Volume. 44, Issue 3, 173(2024)

Present Situation and Development of Integrated Imaging 3D Display Technology Assisted by Intelligent Algorithms

Yaolin CHEN, Yunfei LIU, Linsen CHEN, and Wen QIAO
Author Affiliations
  • School of Optoelectronic Science and Engineering, Soochow University, Suzhou Jiangsu 215006, CHN
  • show less
    References(52)

    [2] Deng H, Wang Q H, Wu F et al. Cross-talk-free integral imaging three-dimensional display based on a pyramid pinhole array[J]. Photonics Research, 3, 173-176(2015).

    [3] Li X W, Wang Y, Wang Q H et al. Modified integral imaging reconstruction and encryption using an improved SR reconstruction algorithm[J]. Optics and Lasers in Engineering, 112, 162-169(2019).

    [4] Cao L C, Wang Z, Zhang H et al. Volume holographic printing using unconventional angular multiplexing for three-dimensional display[J]. Applied Optics, 55, 6046-6051(2016).

    [5] Wang D, Liu C, Li L et al. Adjustable liquid aperture to eliminate undesirable light in holographic projection[J]. Optics Express, 24, 2098-2105(2016).

    [6] Miyazaki D, Shiba K, Sotsuka K et al. Volumetric display system based on three-dimensional scanning of inclined optical image[J]. Optics Express, 14, 12760-12769(2006).

    [7] Damry A. Épreuves Réversibles-Photographies Intégrales[J]. Bulletin de la Societe Belge d'Astronomie, 13, A245-A254(1908).

    [8] Ardiny H, Khanmirza E. The role of AR and VR technologies in education developments: Opportunities and challenges[C], 482-487(2018).

    [9] Zhang Z, Geng Z, Li T et al. Integration of real-time 3D capture, reconstruction, and light-field display[C](2015).

    [10] Antipa N, Kuo G, Heckel R et al. Diffuser Cam: Lens less single-exposure 3D imaging[J]. Optica, 5, 1-9(2018).

    [11] Wei W. Research progress on virtual reality (VR) and augmented reality (AR) in tourism and hospitality: A critical review of publications from 2000 to 2018[J]. Journal of Hospitality and Tourism Technology, 10, 539-570(2019).

    [13] Xiong Z L, Wang Q H, Li S L et al. Partially-overlapped viewing zone based integral imaging system with super wide viewing angle[J]. Optics Express, 22, 22268-22277(2014).

    [14] Lippmann G. Epreuves reversibles photographies integrals[J]. Comptes Rendus de Académie des Sciences, 146, 446-451(1908).

    [15] Sokolov A P[M]. Autostereoscpy and integral photography by profiessor lippman's method(1911).

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

    [19] Zesheng L, Dahai L, Huan D. Wide-viewing-angle integral imaging system with full-effective-pixels elemental image array[J]. Micromachines, 14, 225(2023).

    [20] Zhang Mei, Wang Feiyue, Guo Zhen et al. Overview and development of true 3D display technology: Principles and perspectives[J]. Pattern Recognition and Artificial Intelligence, 35, 701-717(2022).

    [22] Igarashi Y, Murata H, Ueda M. 3D display system using a computer generated integral photograph[J]. Jpn. J. Appl. Phys, 17, 1683-1684(1978).

    [23] Jang Y H, Chan P, Jung J S et al. Integral imaging pickup method of bio-medical data using GPU and Octree[J]. Journal of the Korea Contents Association, 10, 1-9(2010).

    [24] Sluljter M, Herzog A, Boer D K G et al. Ray-tracing simulations of liquid-crystal gradient-index lenses for Three-Dimensional displays[J]. Journal of Optical Society of America B, 26, 2035-2042(2009).

    [25] Kim H S, Jeong K M, Hongs I et al. Analysis of image distortion based on light ray field by multi-view and horizontal parallax only integral imaging display[J]. Optics Express, 20, 23755-23768(2012).

    [26] Xiong Z L, Wang Q H, Li S L et al. Partially-overlapped viewing zone based integral imaging system with super wide viewing angle[J]. Optics Express, 22, 22268-22277(2014).

    [27] Xing S J, Sang X Z, Yu X B et al. High efficient computer generated integral imaging based on the backward ray-tracing technique and optical reconstruction[J]. Optics Express, 25, 330-338(2017).

    [28] Guan Y, Sang X, Xing S et al. Backward ray tracing based high-speed visual simulation for light field display and experimental verification[J]. Optics Express, 27, 29309-29318(2019).

    [31] Fan Z B, Cheng Y F, Chen Z M et al. Integral imaging near-eye 3D display using a nanoimprint meta lens array[J]. eLight, 4, 3(2024).

    [32] Yang Guozhen, Dong Bizhen, Gu Benyuan et al. Ersoy, Gerchberg-Saxton and Yang‑Gu algorithms for phase retrieval in a nonunitary transform system: A comparison[J]. Appl. Opt, 33, 209-218(1994).

    [33] Guo Yang. Theory of the amplitude-phase retrieval in any linear-transform system and its applications[C], 1767(1992).

    [34] Li X, Liu Y, Kim S et al. Designing a genetic watermarking approach for 3D scenes[J]. Optics and Lasers in Engineering, 93, 83-91(2017).

    [35] Choi K, Kim J, Lim Y et al. Full parallax viewing-angle enhanced computer-generated holographic 3D display system using integral lens array[J]. Optics Express, 13, 10494-10502(2005).

    [36] Kuzmenkoa, Iezhovp, Kimjt. Weighting iterative Fourier transform algorithm for kinoform implemented with phase-only SLM[C](2011).

    [37] Wu Y, Wang J, Chen C et al. Adaptive weighted gerchberg-saxton algorithm for generation of phase only hologram with artifacts suppression[J]. Optics Express, 29, 1412-1427(2021).

    [38] Makowski M, Sypek M, Kolodziejczyk A et al. Iterative design of multiplane holograms: Experiments and applications[J]. Optical Engineering, 46(2007).

    [39] Piestun R, Spektor B, Shamir J. Wave fields in three dimensions: Analysis and synthesis[J]. Journal of the Optical Society of America A, 13, 1837-1848(1996).

    [40] Fienup J R. Iterative method applied to image reconstruction and to computer-generated holograms[J]. Optical Engineering, 19, 193297(1980).

    [41] 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).

    [42] Wang H C, Yue W R, Song Q et al. A hybrid gerchberg-saxton like algorithm for DOE and CGH calculation[J]. Optics and Lasers in Engineering, 89, 109-115(2017).

    [43] di Leonardo R, Ianni F, Ruocco G. Computer generation of optimal holograms for optical trap arrays[J]. Optics Express, 15, 1913-1922(2007).

    [44] Zhou F, Liu Y, Cai W P. Plasmonic holographic imaging with V-shaped nanoantenna array[J]. Optics Express, 21, 4348-4354(2013).

    [47] Bertero M, Boccacci P, Desidera G et al. Image deblurring with Poisson data: From cells to galaxies[J]. Inverse Problems, 25, 123006(2009).

    [48] Dey N, Blanc-Feraud L, Zimmer C et al. Richardson Lucy algorithm with total variation regularization for 3D confocal microscope deconvolution[J]. Microscopy Research and Technique, 69, 260-266(2006).

    [49] Jung J, Cho M, Dey D K et al. Three-dimensional photon counting integral imaging using Bayesianestimation[J]. Optics Letters, 35, 1825-1827(2010).

    [50] Bertero M, Boccacci P, Desiderà G et al. Image deblurring with Poisson data: From cells to galaxies[J]. Inverse Problems, 25, 123006(2009).

    [53] Yang L, Liu L. Depth of field extended integral imaging based on multi-depth fitting fusion[J]. Optics Communications, 555, 130226(2024).

    [54] Yu X, Dong H, Gao X et al. 360-degree directional micro prism array for tabletop flat panel light field displays[J]. Optics Express, 31, 32273-32286(2023).

    [55] Yu X, Li H, Su X et al. Image edge smoothing method for light-field displays based on joint design of optical structure and elemental images[J]. Optics Express, 31, 18017-18025(2023).

    [56] Yu X, Li J, Gao X et al. Smooth motion parallax method for 3D light-field displays with a narrow pitch based on optimizing the light beam divergence angle[J]. Optics Express, 32, 9857-9866(2024).

    [57] Yu X, Zhang Z, Liu B et al. True-color light-field display system with large depth-of-field based on joint modulation for size and arrangement of halftone dots[J]. Optics Express, 31, 20505-20517(2023).

    [58] Yuanhang L, Xinzhu S, Shujun X et al. Real-time optical 3D reconstruction based on Monte Carlo integration and recurrent CNNs denoising with the 3D light field display[J]. Optics Express, 27, 22198-22208(2019).

    [59] Mildenhall B, Srinivasan P P, Tancik M et al. Nerf: Representing scenes as neural radiance fields for view synthesis[J]. Communications of the ACM, 65, 99-106(2021).

    [60] Erdenebat M U, Amgalan T, Khuderchuluun A et al. Comprehensive high-quality three dimensional display system based on a simplified light-field image acquisition method and a full-connected deep neural network[J]. Sensors, 23, 6245(2023).

    [61] Ma C, Liu J, Xu W et al. Dense viewpoint encoding of 3D light fields based on neural graphics primitives[J]. Optics and Lasers in Engineering, 178, 108214(2024).

    [62] Yu X, Li H, Su X et al. Image edge smoothing method for light-field displays based on joint design of optical structure and elemental images[J]. Optics Express, 31, 18017-18025(2023).

    [63] Yu X, Li J, Gao X et al. Smooth motion parallax method for 3D light-field displays with a narrow pitch based on optimizing the light beam divergence angle[J]. Optics Express, 32, 9857-9866(2024).

    Tools

    Get Citation

    Copy Citation Text

    Yaolin CHEN, Yunfei LIU, Linsen CHEN, Wen QIAO. Present Situation and Development of Integrated Imaging 3D Display Technology Assisted by Intelligent Algorithms[J]. Optoelectronic Technology, 2024, 44(3): 173

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Save article for my favorites
    Paper Information

    Category:

    Received: --

    Accepted: --

    Published Online: Mar. 5, 2025

    The Author Email:

    DOI:10.12450/j.gdzjs.202403001

    Topics