AI Article Synopsis
- Restoration tasks in low-level vision focus on recovering high-quality (HQ) data from low-quality (LQ) inputs, with increasing interest in unpaired methods that don't require matched datasets.
- Diverse and unknown degradation types in real-world scenarios present challenges for these unpaired learning methods.
- The paper introduces a degradation representation learning scheme and a framework featuring degradation-aware convolutions, resulting in two models, UnIRnet and UnPRnet, which demonstrate state-of-the-art performance in restoring images and point clouds respectively.
Article Abstract
Restoration tasks in low-level vision aim to restore high-quality (HQ) data from their low-quality (LQ) observations. To circumvents the difficulty of acquiring paired data in real scenarios, unpaired approaches that aim to restore HQ data solely on unpaired data are drawing increasing interest. Since restoration tasks are tightly coupled with the degradation model, unknown and highly diverse degradations in real scenarios make learning from unpaired data quite challenging. In this paper, we propose a degradation representation learning scheme to address this challenge. By learning to distinguish various degradations in the representation space, our degradation representations can extract implicit degradation information in an unsupervised manner. Moreover, to handle diverse degradations, we develop degradation-aware (DA) convolutions with flexible adaption to various degradations to fully exploit the degrdation information in the learned representations. Based on our degradation representations and DA convolutions, we introduce a generic framework for unpaired restoration tasks. Based on our framework, we propose UnIRnet and UnPRnet for unpaired image and point cloud restoration tasks, respectively. It is demonstrated that our degradation representation learning scheme can extract discriminative representations to obtain accurate degradation information. Experiments on unpaired image and point cloud restoration tasks show that our UnIRnet and UnPRnet achieve state-of-the-art performance.
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| http://dx.doi.org/10.1109/TPAMI.2024.3471571 | DOI Listing |
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