Map-free Visual Relocalization: Metric Pose Relative to a Single Image
October 11, 2022 Β· Declared Dead Β· π European Conference on Computer Vision
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Authors
Eduardo Arnold, Jamie Wynn, Sara Vicente, Guillermo Garcia-Hernando, Γron Monszpart, Victor Adrian Prisacariu, Daniyar Turmukhambetov, Eric Brachmann
arXiv ID
2210.05494
Category
cs.CV: Computer Vision
Citations
98
Venue
European Conference on Computer Vision
Last Checked
4 months ago
Abstract
Can we relocalize in a scene represented by a single reference image? Standard visual relocalization requires hundreds of images and scale calibration to build a scene-specific 3D map. In contrast, we propose Map-free Relocalization, i.e., using only one photo of a scene to enable instant, metric scaled relocalization. Existing datasets are not suitable to benchmark map-free relocalization, due to their focus on large scenes or their limited variability. Thus, we have constructed a new dataset of 655 small places of interest, such as sculptures, murals and fountains, collected worldwide. Each place comes with a reference image to serve as a relocalization anchor, and dozens of query images with known, metric camera poses. The dataset features changing conditions, stark viewpoint changes, high variability across places, and queries with low to no visual overlap with the reference image. We identify two viable families of existing methods to provide baseline results: relative pose regression, and feature matching combined with single-image depth prediction. While these methods show reasonable performance on some favorable scenes in our dataset, map-free relocalization proves to be a challenge that requires new, innovative solutions.
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