Review of Holographic Near-Eye Displays for Visual Comfort

Chenliang Chang; Bo Dai; Jun Xia; Dawei Zhang; Songlin Zhuang

doi:10.3788/LOP202259.2011001

Journals >Laser & Optoelectronics Progress >Volume 59 >Issue 20 >Page 2011001 > Article

Laser & Optoelectronics Progress
Vol. 59, Issue 20, 2011001 (2022)

Review of Holographic Near-Eye Displays for Visual Comfort

Chenliang Chang^1、2、*, Bo Dai^1、2, Jun Xia³, Dawei Zhang^1、2、**, and Songlin Zhuang^1、2

Author Affiliations

¹Shanghai Key Laboratory of Modern Optics System, School of Optical-Electrical and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China

²Engineering Research Center of Optical Instrument and System, Ministry of Education, School of Optical-Electrical and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China

³Joint International Research Laboratory of Information Display and Visualization, School of Electronic Science and Engineering, Southeast University, Nanjing 210096, Jiangsu, China

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DOI: 10.3788/LOP202259.2011001 Cite this Article Set citation alerts

Chenliang Chang, Bo Dai, Jun Xia, Dawei Zhang, Songlin Zhuang. Review of Holographic Near-Eye Displays for Visual Comfort[J]. Laser & Optoelectronics Progress, 2022, 59(20): 2011001 Copy Citation Text

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Fig. 1. Iterative perceptual process of human visual system^[11]

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Fig. 2. Content perception of human visual system at different field angles^[12]

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Fig. 3. Holographic near-eye display based on Fourier and Fresnel holography and their corresponded eyebox illustration. (a) Holographic near-eye display based on Fourier; (b) holographic near-eye display based on Fresnel holography

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Fig. 4. Eyebox expansion. (a) Spatial multiplexing^[17]; (b) temporal multiplexing based on multiple illumination and spatial tiling^[18]; (c) temporal multiplexing based on phase shifting and pupil tracking^[19]

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Fig. 5. FOV expansion. (a) FOV enlargement through conjugate imaging; (b) FOV enlargement through off-axis holographic lens^[20]

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Fig. 6. Spatial bandwidth product expansion based on non-period wavefront modulation. (a) Using holographic scattering media^[40]; (b) using non-period photon sieve^[41]

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Fig. 7. Speckle noise suppression. (a) Time average method^[43]; (b) double-phase based complex amplitude modulation^[50]; (c) partially coherent illumination^[51]

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Fig. 8. Optimization of hologram from feedback of optical captured image. (a) Camera-in-the-loop optimization for 2D holographic display^[65]; (b) camera-in-the-loop optimization for 3D holographic display^[66]

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Fig. 9. CGH generation based on geometry models. (a) Point-cloud based CGH algorithm accelerated by wavefront recording plane^[73]; (b) local coordinates of polygon based algorithm^[74]

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Fig. 10. CGH generation based on image models. (a) Hologram calculation and display of multi plane model^[44]; (b)hologram calculation and display of light field model^[77]

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Fig. 11. Full-color holographic near-eye display based on temporal multiplexing. (a) Temporal multiplexed full-color holographic AR display by using high frame rate DMD^[47]; (b) temporal multiplexed full-color holographic AR display combined with complex amplitude modulation optics^[87]

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Fig. 12. Full-color holographic near-eye display based on spatial multiplexing through. (a) Frequency filtering^[89]; (b) waveguide metasurface hologram^[90]

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Fig. 13. Compact prototype of holographic AR glass and its potential applications^[60]

Chenliang Chang, Bo Dai, Jun Xia, Dawei Zhang, Songlin Zhuang. Review of Holographic Near-Eye Displays for Visual Comfort[J]. Laser & Optoelectronics Progress, 2022, 59(20): 2011001

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