Toward Real-World Super Resolution With Adaptive Self-Similarity Mining

Zejia Fan;Wenhan Yang;Zongming Guo;Jiaying Liu
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Abstract

Despite efforts to construct super-resolution (SR) training datasets with a wide range of degradation scenarios, existing supervised methods based on these datasets still struggle to consistently offer promising results due to the diversity of real-world degradation scenarios and the inherent complexity of model learning. Our work explores a new route: integrating the sample-adaptive property learned through image intrinsic self-similarity and the universal knowledge acquired from large-scale data. We achieve this by uniting internal learning and external learning by an unrolled optimization process. With the merits of both, the tuned fully-supervised SR models can be augmented to broadly handle the real-world degradation in a plug-and-play style. Furthermore, to promote the efficiency of combining internal/external learning, we apply an attention-based weight-updating method to guide the mining of self-similarity, and various data augmentations are adopted while applying the exponential moving average strategy. We conduct extensive experiments on real-world degraded images and our approach outperforms other methods in both qualitative and quantitative comparisons. Our project is available at: https://github.com/ZahraFan/AdaSSR/ .
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利用自适应自相似性挖掘实现真实世界超级分辨率
尽管人们努力构建具有广泛降解场景的超分辨率(SR)训练数据集,但由于真实世界降解场景的多样性和模型学习的内在复杂性,基于这些数据集的现有监督方法仍难以持续提供有前景的结果。我们的工作探索了一条新路:将通过图像内在自相似性学习到的样本自适应属性与从大规模数据中获取的通用知识相结合。为此,我们将内部学习和外部学习结合起来,采用了一种非滚动优化过程。利用二者的优点,经过调整的全监督 SR 模型可以通过即插即用的方式进行扩展,以广泛处理现实世界中的退化问题。此外,为了提高内部/外部学习相结合的效率,我们应用了一种基于注意力的权重更新方法来引导自相似性的挖掘,并在应用指数移动平均策略的同时采用了多种数据增强方法。我们在真实世界的退化图像上进行了大量实验,在定性和定量比较中,我们的方法都优于其他方法。我们的项目可在以下网址获取:.
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