GAN Prior Based Null-Space Learning for Consistent Super-resolution

Consistency and realness have always been the two critical issues of image super-resolution. While the realness has been dramatically improved with the use of GAN prior, the state-of-the-art methods still suffer inconsistencies in local structures and colors (e.g., tooth and eyes). In this paper, we show that these inconsistencies can be analytically eliminated by learning only the null-space component while fixing the range-space part. Further, we design a pooling-based decomposition (PD), a universal range-null space decomposition for super-resolution tasks, which is concise, fast, and parameter-free. PD can be easily applied to state-of-the-art GAN Prior based SR methods to eliminate their inconsistencies, neither compromise the realness nor bring extra parameters or computational costs. Besides, our ablation studies reveal that PD can replace pixel-wise losses for training and achieve better generalization performance when facing unseen downsamplings or even real-world degradation. Experiments show that the use of PD refreshes state-of-the-art SR performance and speeds up the convergence of training up to 2~10 times.

Authors

• Yinhuai Wang Peking University Shenzhen Graduate School
• Yujie Hu Peking University Shenzhen Graduate School
• Jiwen Yu Peking University Shenzhen Graduate School
• Jian Zhang

Keywords

• CV: Computational Photography, Image & Video Synthesis
• CV: Learning & Optimization for CV
• CV: Low Level & Physics-based Vision
• CV: Other Foundations of Computer Vision