Learning-based visual localization methods that use scene coordinate regression (SCR) offer the advantage of smaller map sizes. However, on datasets with complex illumination changes or image-level ambiguities, it remains a less robust alternative to feature matching methods. This work aims to close the gap. We introduce a covisibility graph-based global encoding learning and data augmentation strategy, along with a depth-adjusted reprojection loss to facilitate implicit triangulation. Additionally, we revisit the network architecture and local feature extraction module. Our method achieves state-of-the-art on challenging large-scale datasets without relying on network ensembles or 3D supervision. On Aachen Day-Night, we are 10× more accurate than previous SCR methods with similar map sizes and require at least 5× smaller map sizes than any other SCR method while still delivering superior accuracy. Code is available at: https://github.com/cvg/scrstudio .
@article{arxiv.2501.01421,
title = {R-SCoRe: Revisiting Scene Coordinate Regression for Robust Large-Scale Visual Localization},
author = {Xudong Jiang and Fangjinhua Wang and Silvano Galliani and Christoph Vogel and Marc Pollefeys},
journal= {arXiv preprint arXiv:2501.01421},
year = {2025}
}
Comments
CVPR 2025 camera ready. Code: https://github.com/cvg/scrstudio