Paper ID: 2410.11666
Degradation Oriented and Regularized Network for Real-World Depth Super-Resolution
Zhengxue Wang, Zhiqiang Yan
Recently, existing RGB-guided depth super-resolution methods achieve excellent performance based on the assumption of fixed and known degradation (e.g., bicubic downsampling). However, in real-world scenarios, the captured depth often suffers from unconventional and agnostic degradation due to sensor limitations and the complexity of imaging environments (e.g., low reflective surface, illumination). Their performance significantly declines when these real degradation differ from their assumptions. To address these issues, we propose a Degradation Oriented and Regularized Network, DORNet, which pays more attention on learning degradation representation of low-resolution depth that can provide targeted guidance for depth recovery. Specifically, we first design a self-supervised Degradation Learning to model the discriminative degradation representation of low-resolution depth using routing selection-based Degradation Regularization. Then, we present a Degradation Awareness that recursively conducts multiple Degradation-Oriented Feature Transformations, each of which selectively embeds RGB information into the depth based on the learned degradation representation. Extensive experimental results on both real and synthetic datasets demonstrate that our method achieves state-of-the-art performance.
Submitted: Oct 15, 2024