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    Journals >Laser & Optoelectronics Progress >Volume 57 >Issue 12 >Page 120901 > Article
    • Laser & Optoelectronics Progress
    • Vol. 57, Issue 12, 120901 (2020)
    Printing Method of Holographic Stereogram Reconstructed with White Light Based on Effective Perspective Image Segmentation and Mosaicking
    Chao Han1, Xiaoyu Jiang1、*, Fan Fan1、2, Chenqing Wang1, Teng Zhang1, and Xingpeng Yan1
    Author Affiliations
  • 1Department of Information Communication, Academy of Army Armored Forces, Chinese People's Liberation Army, Beijing 100072, China
  • 2Institute of Construction and Development, Army Academy, Chinese People's Liberation Army, Beijing 100012, China
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    DOI: 10.3788/LOP57.120901 Cite this Article Set citation alerts
    Chao Han, Xiaoyu Jiang, Fan Fan, Chenqing Wang, Teng Zhang, Xingpeng Yan. Printing Method of Holographic Stereogram Reconstructed with White Light Based on Effective Perspective Image Segmentation and Mosaicking[J]. Laser & Optoelectronics Progress, 2020, 57(12): 120901 Copy Citation Text show less
    Principle of two-step transfer and exposure method. (a) Production of master hologram; (b) transfer of hologram
    Fig. 1. Principle of two-step transfer and exposure method. (a) Production of master hologram; (b) transfer of hologram
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    Holographic stereogram principle of EPISM method
    Fig. 2. Holographic stereogram principle of EPISM method
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    Wavefront recording of hologram
    Fig. 3. Wavefront recording of hologram
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    Broadening of the reconstructed image point by white light
    Fig. 4. Broadening of the reconstructed image point by white light
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    Effect of scene depth on d. (a) Effect of scene depth on the resolution of the synthetic perspective picture; (b) effect of scene depth on the quality of the reconstructed image
    Fig. 5. Effect of scene depth on d. (a) Effect of scene depth on the resolution of the synthetic perspective picture; (b) effect of scene depth on the quality of the reconstructed image
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    Optical setup of holographic stereogram printer system
    Fig. 6. Optical setup of holographic stereogram printer system
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    Synthetic effective perspective images of different view points
    Fig. 7. Synthetic effective perspective images of different view points
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    Reconstruction with white light. (a) Optical setup of reconstruction; (b) white-light LED used in optical setup of reconstruction
    Fig. 8. Reconstruction with white light. (a) Optical setup of reconstruction; (b) white-light LED used in optical setup of reconstruction
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    Reconstructed images. (a) Intensity ratio of reference light and object light is 1∶1; (b) intensity ratio of reference light and object light is 5∶1; (c) intensity ratio of reference light and object light is 10∶1
    Fig. 9. Reconstructed images. (a) Intensity ratio of reference light and object light is 1∶1; (b) intensity ratio of reference light and object light is 5∶1; (c) intensity ratio of reference light and object light is 10∶1
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    Contrast of reconstructed image with laser and white light. (a) Reconstructed image with laser; (b) reconstructed image with white light
    Fig. 10. Contrast of reconstructed image with laser and white light. (a) Reconstructed image with laser; (b) reconstructed image with white light
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    Contrast of reconstructed image with different scene depths. (a) Smaller scene depth; (b) suitable scene depth
    Fig. 11. Contrast of reconstructed image with different scene depths. (a) Smaller scene depth; (b) suitable scene depth
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    Chao Han, Xiaoyu Jiang, Fan Fan, Chenqing Wang, Teng Zhang, Xingpeng Yan. Printing Method of Holographic Stereogram Reconstructed with White Light Based on Effective Perspective Image Segmentation and Mosaicking[J]. Laser & Optoelectronics Progress, 2020, 57(12): 120901
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    Paper Information
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