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    Journals >Acta Photonica Sinica >Volume 50 >Issue 7 >Page 68 > Article
    • Acta Photonica Sinica
    • Vol. 50, Issue 7, 68 (2021)
    Bit-plane Motion Estimation for Digitally Driven Near-eye Display
    Yuan JI1,2, Yuansheng SONG1, Yuansheng CHEN1, Wendong CHEN2, and Tingzhou MU2
    Author Affiliations
  • 1Microelectronics Research and Development Center, Shanghai University, Shanghai200444, China
  • 2School of Mechatronic Engineering and Automation, Shanghai University, Shanghai00444, China
    • show less
    DOI: 10.3788/gzxb20215007.0710001 Cite this Article
    Yuan JI, Yuansheng SONG, Yuansheng CHEN, Wendong CHEN, Tingzhou MU. Bit-plane Motion Estimation for Digitally Driven Near-eye Display[J]. Acta Photonica Sinica, 2021, 50(7): 68 Copy Citation Text show less
    Block matching motion estimation algorithm
    Fig. 1. Block matching motion estimation algorithm
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    The relationship between critical frequency of human eye and eccentricity
    Fig. 2. The relationship between critical frequency of human eye and eccentricity
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    Lena and its bit-plane spectrogram
    Fig. 3. Lena and its bit-plane spectrogram
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    Divide the image area by eccentricity
    Fig. 4. Divide the image area by eccentricity
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    Correlation experiment statistics of image blocks
    Fig. 5. Correlation experiment statistics of image blocks
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    The top 12 of each matching block pattern in the bit-plane
    Fig. 6. The top 12 of each matching block pattern in the bit-plane
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    Supplementary matching block
    Fig. 7. Supplementary matching block
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    The relationship between the number of compressed bit-planes and the compression ratio
    Fig. 8. The relationship between the number of compressed bit-planes and the compression ratio
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    PSNR after single bit-plane compressed and restored
    Fig. 9. PSNR after single bit-plane compressed and restored
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    SSIM after single bit-plane compressed and restored
    Fig. 10. SSIM after single bit-plane compressed and restored
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    Subjective quality evaluation of image after single bit-plane compression
    Fig. 11. Subjective quality evaluation of image after single bit-plane compression
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    Near-eye display based on bit-plane motion estimation
    Fig. 12. Near-eye display based on bit-plane motion estimation
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    Hardware test platform
    Fig. 13. Hardware test platform
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    Starting from the low bit, PSNR of multiple bit-planes compressed and restored
    Fig. 14. Starting from the low bit, PSNR of multiple bit-planes compressed and restored
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    Starting from the low bit, SSIM of multiple bit-planes compressed and restored
    Fig. 15. Starting from the low bit, SSIM of multiple bit-planes compressed and restored
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    Starting from the low bit, subjective quality evaluation of the image after 5 bit-planes compression and restoration
    Fig. 16. Starting from the low bit, subjective quality evaluation of the image after 5 bit-planes compression and restoration
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    Abstract
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    Figures&Tables (16)
    Equations (4)
    References (9)
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    Yuan JI, Yuansheng SONG, Yuansheng CHEN, Wendong CHEN, Tingzhou MU. Bit-plane Motion Estimation for Digitally Driven Near-eye Display[J]. Acta Photonica Sinica, 2021, 50(7): 68
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    Paper Information
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