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[Preprint] UltraSR: Spatial Encoding is a Missing Key for Implicit Image Function-based Arbitrary-Scale Super-Resolution, 2021

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UltraSR: Spatial Encoding is a Missing Key for Implicit Image Function-based Arbitrary-Scale Super-Resolution

Paper Link: ArXiv Preprint

By Xingqian Xu, Zhangyang Wang, and Humphrey Shi,

DEMO

Introduction

Arbitrary-scale super-resolution is a raising research topic with tremendous application potentials. Prior CNN-based SR approaches usually apply to only one fixed resolution scale, and thus unable to adjust their output dimension without changing the low-resolution input. Such design creates a huge gap between academic research and practical usage, and a majority of image up-sampling applications, even sensitive to precision, still heavily relied on bicubic interpolation despite its poor quality. Empowered by the rapidly advancing techniques in implicit neural representation, images and scenes can now be generalized by network-learned implicit functions on various vision topics. Specifically for our SR task, the idea that use one trained network for all zoom-in scales on any input image will bring both convenience and accuracy to downstream users in the near future. In this work, we propose UltraSR, a simple yet effective new network design based on implicit image functions in which spatial coordinates and periodic encoding are deeply integrated with the implicit neural representation. Our UltraSR sets new state-of-the-art performance on the DIV2K benchmark on Arbitrary-scale super-resolution. UltraSR also achieves superior performance on other standard benchmark datasets in which it outperforms prior works in almost all experiments.

Visualization

Result

Result comparison on DIV2K validation dataset.

Method x2 x3 x4 x6 x12 x18 x24 x30
Bicubic 31.01 28.22 26.66 24.82 22.27 21.00 20.19 19.59
EDSR 34.55 30.90 28.92 - - - - -
MetaSR-EDSR 34.64 30.93 28.92 26.61 23.55 22.03 21.06 20.37
LIIF-EDSR 34.67 30.96 29.00 26.75 23.71 22.17 21.18 20.48
UltraSR-EDSR 34.69 31.02 29.05 26.81 23.75 22.21 21.21 20.51
MetaSR-RDN 35.00 31.27 29.25 26.88 23.73 22.18 21.17 20.47
LIIF-RDN 34.99 31.26 29.27 26.99 23.89 22.34 21.31 20.59
UltraSR-RDN 35.00 31.30 29.32 27.03 23.93 22.36 21.33 20.61

Result comparison on other 5 benchmark datasets.

Dataset Method x2 x3 x4 x6 x8 x12
Set5 RDN 38.24 34.71 32.47 - - -
MetaSR-RDN 38.22 34.63 32.38 29.04 29.96 -
LIIF-RDN 38.17 34.68 32.50 29.15 27.14 24.86
UltraSR-RDN 38.21 34.67 32.49 29.33 27.24 24.81
Set14 RDN 34.01 30.57 28.81 - - -
MetaSR-RDN 33.98 30.54 28.78 26.51 24.97 -
LIIF-RDN 33.97 30.53 28.80 26.64 25.15 23.24
UltraSR-RDN 33.97 30.59 28.86 26.69 25.25 23.32
B100 RDN 32.34 29.26 27.72 - - -
MetaSR-RDN 32.33 29.26 27.71 25.90 24.83 -
LIIF-RDN 32.32 29.26 27.74 25.98 24.91 23.57
UltraSR-RDN 32.35 29.29 27.77 26.01 24.96 23.59
Urban100 RDN 32.89 28.80 26.61 - - -
MetaSR-RDN 32.92 28.82 26.55 23.99 22.59 -
LIIF-RDN 32.87 28.82 26.68 24.20 22.79 21.15
UltraSR-RDN 32.97 28.92 26.78 24.30 22.87 21.20
Manga109 RDN 39.18 34.13 31.00 - - -
MetaSR-RDN - - - - - -
LIIF-RDN 39.26 34.21 31.20 27.33 25.04 22.36
UltraSR-RDN 39.09 34.28 31.32 27.42 25.12 22.42

License

Citation

@article{xu2021ultrasr,
  title={UltraSR: Spatial Encoding is a Missing Key for Implicit Image Function-based Arbitrary-Scale Super-Resolution},
  author={Xingqian Xu and Zhangyang Wang and Humphrey Shi},
  journal={arXiv preprint arXiv:2103.12716},
  year={2021}
}

Acknowledgements

Our work benefited greatly from LIIF (CVPR 2021) etc. We thank the authors for sharing their codes.

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[Preprint] UltraSR: Spatial Encoding is a Missing Key for Implicit Image Function-based Arbitrary-Scale Super-Resolution, 2021

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