High dimensional optical data - varifocal multiview imaging, compression and evaluation
Varifocal multiview (VFMV) is an emerging high-dimensional optical data in computational imaging and displays. It describes scenes in angular, spatial, and focal dimensions, whose complex imaging conditions involve dense viewpoints, high spatial resolutions, and variable focal planes, resulting in d...
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sg-ntu-dr.10356-1738102024-02-29T02:21:31Z High dimensional optical data - varifocal multiview imaging, compression and evaluation Wu, Kejun Liu, Qiong Yap, Kim-Hui Yang, You School of Electrical and Electronic Engineering Engineering Computational imaging Directional predictions Varifocal multiview (VFMV) is an emerging high-dimensional optical data in computational imaging and displays. It describes scenes in angular, spatial, and focal dimensions, whose complex imaging conditions involve dense viewpoints, high spatial resolutions, and variable focal planes, resulting in difficulties in data compression. In this paper, we propose an efficient VFMV compression scheme based on view mountain-shape rearrangement (VMSR) and all-directional prediction structure (ADPS). The VMSR rearranges the irregular VFMV to form a new regular VFMV with mountain-shape focusing distributions. This special rearrangement features prominently in enhancing inter-view correlations by smoothing focusing status changes and moderating view displacements. Then, the ADPS efficiently compresses the rearranged VFMV by exploiting the enhanced correlations. It conducts row-wise hierarchy divisions and creates prediction dependencies among views. The closest adjacent views from all directions serve as reference frames to improve the prediction efficiency. Extensive experiments demonstrate the proposed scheme outperforms comparison schemes by quantitative, qualitative, complexity, and forgery protection evaluations. As high as 3.17 dB gains of peak signal-to-noise ratio (PSNR) and 61.1% bitrate savings can be obtained, achieving the state-of-the-art compression performance. VFMV is also validated could serve as a novel secure imaging format protecting optical data against the forgery of large models. National Natural Science Foundation of China (61991412); Major Project of Fundamental Research on Frontier Leading Technology of Jiangsu Province (BK20222006); Key Research and Development Program of Hubei Province (2023BAB021); Fundamental Research Supporting Program (2023BR023). 2024-02-29T02:21:31Z 2024-02-29T02:21:31Z 2023 Journal Article Wu, K., Liu, Q., Yap, K. & Yang, Y. (2023). High dimensional optical data - varifocal multiview imaging, compression and evaluation. Optics Express, 31(24), 39483-39499. https://dx.doi.org/10.1364/OE.504717 1094-4087 https://hdl.handle.net/10356/173810 10.1364/OE.504717 38041269 2-s2.0-85178379096 24 31 39483 39499 en Optics Express © 2023 Optica Publishing Group. All rights reserved. |
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Engineering Computational imaging Directional predictions Wu, Kejun Liu, Qiong Yap, Kim-Hui Yang, You High dimensional optical data - varifocal multiview imaging, compression and evaluation |
| description |
Varifocal multiview (VFMV) is an emerging high-dimensional optical data in computational imaging and displays. It describes scenes in angular, spatial, and focal dimensions, whose complex imaging conditions involve dense viewpoints, high spatial resolutions, and variable focal planes, resulting in difficulties in data compression. In this paper, we propose an efficient VFMV compression scheme based on view mountain-shape rearrangement (VMSR) and all-directional prediction structure (ADPS). The VMSR rearranges the irregular VFMV to form a new regular VFMV with mountain-shape focusing distributions. This special rearrangement features prominently in enhancing inter-view correlations by smoothing focusing status changes and moderating view displacements. Then, the ADPS efficiently compresses the rearranged VFMV by exploiting the enhanced correlations. It conducts row-wise hierarchy divisions and creates prediction dependencies among views. The closest adjacent views from all directions serve as reference frames to improve the prediction efficiency. Extensive experiments demonstrate the proposed scheme outperforms comparison schemes by quantitative, qualitative, complexity, and forgery protection evaluations. As high as 3.17 dB gains of peak signal-to-noise ratio (PSNR) and 61.1% bitrate savings can be obtained, achieving the state-of-the-art compression performance. VFMV is also validated could serve as a novel secure imaging format protecting optical data against the forgery of large models. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Wu, Kejun Liu, Qiong Yap, Kim-Hui Yang, You |
| format |
Article |
| author |
Wu, Kejun Liu, Qiong Yap, Kim-Hui Yang, You |
| author_sort |
Wu, Kejun |
| title |
High dimensional optical data - varifocal multiview imaging, compression and evaluation |
| title_short |
High dimensional optical data - varifocal multiview imaging, compression and evaluation |
| title_full |
High dimensional optical data - varifocal multiview imaging, compression and evaluation |
| title_fullStr |
High dimensional optical data - varifocal multiview imaging, compression and evaluation |
| title_full_unstemmed |
High dimensional optical data - varifocal multiview imaging, compression and evaluation |
| title_sort |
high dimensional optical data - varifocal multiview imaging, compression and evaluation |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173810 |
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1794549423667150848 |