OSRT: Omnidirectional Image Super-Resolution with Distortion-aware Transformer
Omnidirectional images (ODIs) have obtained lots of research interest for immersive experiences. Although ODIs require extremely high resolution to capture details of the entire scene, the resolutions of most ODIs are insufficient. Previous methods attempt to solve this issue by image super-resoluti...
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| creator | Yu, Fanghua Wang, Xintao Cao, Mingdeng Li, Gen Shan, Ying Dong, Chao |
| description | Omnidirectional images (ODIs) have obtained lots of research interest for
immersive experiences. Although ODIs require extremely high resolution to
capture details of the entire scene, the resolutions of most ODIs are
insufficient. Previous methods attempt to solve this issue by image
super-resolution (SR) on equirectangular projection (ERP) images. However, they
omit geometric properties of ERP in the degradation process, and their models
can hardly generalize to real ERP images. In this paper, we propose Fisheye
downsampling, which mimics the real-world imaging process and synthesizes more
realistic low-resolution samples. Then we design a distortion-aware Transformer
(OSRT) to modulate ERP distortions continuously and self-adaptively. Without a
cumbersome process, OSRT outperforms previous methods by about 0.2dB on PSNR.
Moreover, we propose a convenient data augmentation strategy, which synthesizes
pseudo ERP images from plain images. This simple strategy can alleviate the
over-fitting problem of large networks and significantly boost the performance
of ODISR. Extensive experiments have demonstrated the state-of-the-art
performance of our OSRT. Codes and models will be available at
https://github.com/Fanghua-Yu/OSRT. |
| doi_str_mv | 10.48550/arxiv.2302.03453 |
| format | Article |
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immersive experiences. Although ODIs require extremely high resolution to
capture details of the entire scene, the resolutions of most ODIs are
insufficient. Previous methods attempt to solve this issue by image
super-resolution (SR) on equirectangular projection (ERP) images. However, they
omit geometric properties of ERP in the degradation process, and their models
can hardly generalize to real ERP images. In this paper, we propose Fisheye
downsampling, which mimics the real-world imaging process and synthesizes more
realistic low-resolution samples. Then we design a distortion-aware Transformer
(OSRT) to modulate ERP distortions continuously and self-adaptively. Without a
cumbersome process, OSRT outperforms previous methods by about 0.2dB on PSNR.
Moreover, we propose a convenient data augmentation strategy, which synthesizes
pseudo ERP images from plain images. This simple strategy can alleviate the
over-fitting problem of large networks and significantly boost the performance
of ODISR. Extensive experiments have demonstrated the state-of-the-art
performance of our OSRT. Codes and models will be available at
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immersive experiences. Although ODIs require extremely high resolution to
capture details of the entire scene, the resolutions of most ODIs are
insufficient. Previous methods attempt to solve this issue by image
super-resolution (SR) on equirectangular projection (ERP) images. However, they
omit geometric properties of ERP in the degradation process, and their models
can hardly generalize to real ERP images. In this paper, we propose Fisheye
downsampling, which mimics the real-world imaging process and synthesizes more
realistic low-resolution samples. Then we design a distortion-aware Transformer
(OSRT) to modulate ERP distortions continuously and self-adaptively. Without a
cumbersome process, OSRT outperforms previous methods by about 0.2dB on PSNR.
Moreover, we propose a convenient data augmentation strategy, which synthesizes
pseudo ERP images from plain images. This simple strategy can alleviate the
over-fitting problem of large networks and significantly boost the performance
of ODISR. Extensive experiments have demonstrated the state-of-the-art
performance of our OSRT. Codes and models will be available at
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immersive experiences. Although ODIs require extremely high resolution to
capture details of the entire scene, the resolutions of most ODIs are
insufficient. Previous methods attempt to solve this issue by image
super-resolution (SR) on equirectangular projection (ERP) images. However, they
omit geometric properties of ERP in the degradation process, and their models
can hardly generalize to real ERP images. In this paper, we propose Fisheye
downsampling, which mimics the real-world imaging process and synthesizes more
realistic low-resolution samples. Then we design a distortion-aware Transformer
(OSRT) to modulate ERP distortions continuously and self-adaptively. Without a
cumbersome process, OSRT outperforms previous methods by about 0.2dB on PSNR.
Moreover, we propose a convenient data augmentation strategy, which synthesizes
pseudo ERP images from plain images. This simple strategy can alleviate the
over-fitting problem of large networks and significantly boost the performance
of ODISR. Extensive experiments have demonstrated the state-of-the-art
performance of our OSRT. Codes and models will be available at
https://github.com/Fanghua-Yu/OSRT.</abstract><doi>10.48550/arxiv.2302.03453</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Computer Vision and Pattern Recognition |
| title | OSRT: Omnidirectional Image Super-Resolution with Distortion-aware Transformer |
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