Dual Recovery Network with Online Compensation for Image Super-Resolution
This addresses image quality enhancement for applications like photography or medical imaging, but it is incremental as it builds on existing retrieval-based approaches.
The paper tackles the loss of high-frequency information in image super-resolution by using online retrieved references to compensate for missing details, achieving notably better performance than state-of-the-art methods.
Image super-resolution (SR) methods essentially lead to a loss of some high-frequency (HF) information when predicting high-resolution (HR) images from low-resolution (LR) images without using external references. To address this issue, we additionally utilize online retrieved data to facilitate image SR in a unified deep framework. A novel dual high-frequency recovery network (DHN) is proposed to predict an HR image with three parts: an LR image, an internal inferred HF (IHF) map (HF missing part inferred solely from the LR image) and an external extracted HF (EHF) map. In particular, we infer the HF information based on both the LR image and similar HR references which are retrieved online. For the EHF map, we align the references with affine transformation and then in the aligned references, part of HF signals are extracted by the proposed DHN to compensate for the HF loss. Extensive experimental results demonstrate that our DHN achieves notably better performance than state-of-the-art SR methods.