Omnidirectional images (ODIs) are commonly used in real-world visual tasks, and high-resolution ODIs help improve the performance of related visual tasks. Most existing super-resolution methods for ODIs use end-to-end learning strategies, resulting in inferior realness of generated images and a lack of effective out-of-domain generalization capabilities in training methods. Image generation methods represented by diffusion model provide strong priors for visual tasks and have been proven to be effectively applied to image restoration tasks. Leveraging the image priors of the Stable Diffusion (SD) model, we achieve omnidirectional image super-resolution with both fidelity and realness, dubbed as OmniSSR. Firstly, we transform the equirectangular projection (ERP) images into tangent projection (TP) images, whose distribution approximates the planar image domain. Then, we use SD to iteratively sample initial high-resolution results. At each denoising iteration, we further correct and update the initial results using the proposed Octadecaplex Tangent Information Interaction (OTII) and Gradient Decomposition (GD) technique to ensure better consistency. Finally, the TP images are transformed back to obtain the final high-resolution results. Our method is zero-shot, requiring no training or fine-tuning. Experiments of our method on two benchmark datasets demonstrate the effectiveness of our proposed method.
There's a lot of excellent work that was introduced around the same time as ours.
Zero-Shot Image Restoration Using Denoising Diffusion Null-Space Model inspires us for this paper's GD composition.
StableSR is the baseline method of our paper.
@article{li2024omnissr,
author = {Li, Runyi and Sheng, Xuhan and Li, Weiqi and Zhang, Jian},
title = {OmniSSR: Zero-shot Omnidirectional Image Super-Resolution using Stable Diffusion Model},
journal = {ECCV},
year = {2024},
}