DFNet

Enhance Absolute Pose Regression with Direct Feature Matching

ECCV 2022


Active Vision Lab, University of Oxford

Active Vision Lab, University of Oxford

Active Vision Lab, University of Oxford

Active Vision Lab, University of Oxford




DFNet

Abstract

We introduce a camera relocalization pipeline that combines absolute pose regression (APR) and direct feature matching. By incorporating exposure-adaptive novel view synthesis, our method successfully addresses photometric distortions in outdoor environments that existing photometric-based methods fail to handle. With domain-invariant feature matching, our solution improves pose regression accuracy using semi-supervised learning on unlabeled data. In particular, the pipeline consists of two components: Novel View Synthesizer and DFNet. The former synthesizes novel views compensating for changes in exposure and the latter regresses camera poses and extracts robust features that close the domain gap between real images and synthetic ones. Furthermore, we introduce an online synthetic data generation scheme. We show that these approaches effectively enhance camera pose estimation both in indoor and outdoor scenes. Hence, our method achieves a state-of-the-art accuracy by outperforming existing single-image APR methods by as much as 56%, comparable to 3D structure-based methods.


Supplementary Video


6-DOF Camera Pose Regression

results1 results2


Histogram-assisted NeRF

NeRF-H

Citation

      @inproceedings{chen2022dfnet,
        title={{DFN}et: {E}nhance Absolute Pose Regression with Direct Feature Matching},
        author={Chen, Shuai and Li, Xinghui and Wang, Zirui and Prisacariu, Victor},
        booktitle={ECCV},
        year={2022}
      }