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    Journals >Acta Optica Sinica >Volume 38 >Issue 7 >Page 0710002 > Article
    • Acta Optica Sinica
    • Vol. 38, Issue 7, 0710002 (2018)
    Fast Elemental Image Array Generation Based on Window Interception
    Wei Wu1、2, Shigang Wang1、*, Yan Zhao1, and Cheng Zhong3
    Author Affiliations
  • 1 College of Communication Engineering, Jilin University, Changchun, Jilin 130012, China
  • 2 School of Computer Science & Engineering, Changchun University of Technology, Changchun, Jilin 130012, China;
  • 3 School of Public Administration (School of Humanities), Changchun University of Technology, Changchun, Jilin 130012, China
    • show less
    DOI: 10.3788/AOS201838.0710002 Cite this Article Set citation alerts
    Wei Wu, Shigang Wang, Yan Zhao, Cheng Zhong. Fast Elemental Image Array Generation Based on Window Interception[J]. Acta Optica Sinica, 2018, 38(7): 0710002 Copy Citation Text show less
    Generation of elemental image array. (a) Virtual camera array; (b) elemental image; (c) window interception and image mosaic; (d) elemental image array
    Fig. 1. Generation of elemental image array. (a) Virtual camera array; (b) elemental image; (c) window interception and image mosaic; (d) elemental image array
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    Structure of lenslet arrays with the same inscribe circle diameter of d. (a) Rectangular-packed, circular-based array; (b) honeycomb-packed, circular-based array; (c) rectangular-packed, square-based array; (d) honeycomb-packed, hexagonal-based array
    Fig. 2. Structure of lenslet arrays with the same inscribe circle diameter of d. (a) Rectangular-packed, circular-based array; (b) honeycomb-packed, circular-based array; (c) rectangular-packed, square-based array; (d) honeycomb-packed, hexagonal-based array
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    Diagram of (a) rectangular-packed sampling and (b) honeycomb-packed sampling
    Fig. 3. Diagram of (a) rectangular-packed sampling and (b) honeycomb-packed sampling
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    (a) Window interception and (b) image mosaic
    Fig. 4. (a) Window interception and (b) image mosaic
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    Comparison of different algorithms. (a) Proposed method; (b) single viewpoint independent rendering; (c) different ray tracing rendering methods; (d) relation between subimage and elemental image
    Fig. 5. Comparison of different algorithms. (a) Proposed method; (b) single viewpoint independent rendering; (c) different ray tracing rendering methods; (d) relation between subimage and elemental image
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    LED integral imaging display platform
    Fig. 6. LED integral imaging display platform
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    (a) 3D models; (b) circular elemental image arrays; (c) square elemental image arrays; (d) hexagonal elemental image arrays
    Fig. 7. (a) 3D models; (b) circular elemental image arrays; (c) square elemental image arrays; (d) hexagonal elemental image arrays
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    Comparison of rendering time between (a) proposed method and (b) method in Ref.[17] on JLU and dolphin, when the lenslet array is 24 pixel×24 pixel
    Fig. 8. Comparison of rendering time between (a) proposed method and (b) method in Ref.[17] on JLU and dolphin, when the lenslet array is 24 pixel×24 pixel
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    Comparison of processing time between the proposed method and method in Ref.[17] under different lenslet arrays. (a) 10 pixel×10 pixel; (b) 20 pixel×20 pixel; (c) 30 pixel×30 pixel; (d) 40 pixel×40 pixel
    Fig. 9. Comparison of processing time between the proposed method and method in Ref.[17] under different lenslet arrays. (a) 10 pixel×10 pixel; (b) 20 pixel×20 pixel; (c) 30 pixel×30 pixel; (d) 40 pixel×40 pixel
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    Computer reconstruction of stereo images at different depth planes. (a)(c) Proposed method; (b)(d) method in Ref.[17]; (a)(b) square elemental image array; (c)(d) hexagonal elemental image array
    Fig. 10. Computer reconstruction of stereo images at different depth planes. (a)(c) Proposed method; (b)(d) method in Ref.[17]; (a)(b) square elemental image array; (c)(d) hexagonal elemental image array
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    PSNR comparison between stereo images reconstructed at different depth planes by (a) square elemental and (b) hexagonal elemental image array
    Fig. 11. PSNR comparison between stereo images reconstructed at different depth planes by (a) square elemental and (b) hexagonal elemental image array
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    Stereoscopic display of LED-based integral imaging using (a)(b) square and (c)(d)circular elemental image arrays generated by (a)(c) proposed method and (b)(d) method in Ref.[17]
    Fig. 12. Stereoscopic display of LED-based integral imaging using (a)(b) square and (c)(d)circular elemental image arrays generated by (a)(c) proposed method and (b)(d) method in Ref.[17]
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    3D modelTopFaceTriangle
    JLU264024065268
    Dolphin113021129622592
    Lenslet arrayArray size /(pixel×pixel)Lens pitch /mmFocal length /mm
    Square48×481060
    Hexagon48×551060
    Circular24×242060
    Table 1. 3D models and display platform parameters
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    References (19)
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    Wei Wu, Shigang Wang, Yan Zhao, Cheng Zhong. Fast Elemental Image Array Generation Based on Window Interception[J]. Acta Optica Sinica, 2018, 38(7): 0710002
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