Self-Supervised Learning for Real-World Super-Resolution from Dual Zoomed Observations
In this paper, we consider two challenging issues in reference-based super-resolution (RefSR), (i) how to choose a proper reference image, and (ii) how to learn real-world RefSR in a self-supervised manner. Particularly, we present a novel self-supervised learning approach for real-world image SR from observations at dual camera zooms (SelfDZSR). For the first issue, the more zoomed (telephoto) image can be naturally leveraged as the reference to guide the SR of the lesser zoomed (short-focus) image. For the second issue, SelfDZSR learns a deep network to obtain the SR result of short-focal image and with the same resolution as the telephoto image. For this purpose, we take the telephoto image instead of an additional high-resolution image as the supervision information and select a patch from it as the reference to super-resolve the corresponding short-focus image patch. To mitigate the effect of various misalignment between the short-focus low-resolution (LR) image and telephoto ground-truth (GT) image, we design a degradation model and map the GT to a pseudo-LR image aligned with GT. Then the pseudo-LR and LR image can be fed into the proposed adaptive spatial transformer networks (AdaSTN) to deform the LR features. During testing, SelfDZSR can be directly deployed to super-solve the whole short-focus image with the reference of telephoto image. Experiments show that our method achieves better quantitative and qualitative performance against state-of-the-arts. The code and pre-trained models will be publicly available.
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