ActLoc: Learning to Localize on the Move via Active Viewpoint Selection
Reliable localization is critical for robot navigation, yet most existing systems implicitly assume that all viewing directions at a location are equally informative. In practice, localization becomes unreliable when the robot observes unmapped, ambiguous, or uninformative regions. To address this, we present ActLoc, an active viewpoint-aware planning framework for enhancing localization accuracy for general robot navigation tasks. At its core, ActLoc employs a largescale trained attention-based model for viewpoint selection. The model encodes a metric map and the camera poses used during map construction, and predicts localization accuracy across yaw and pitch directions at arbitrary 3D locations. These per-point accuracy distributions are incorporated into a path planner, enabling the robot to actively select camera orientations that maximize localization robustness while respecting task and motion constraints. ActLoc achieves stateof-the-art results on single-viewpoint selection and generalizes effectively to fulltrajectory planning. Its modular design makes it readily applicable to diverse robot navigation and inspection tasks.
- Veröffentlicht in:
Conference on Robot Learning (CoRL) - Typ:
Article - Autoren:
- Jahr:
2025 - Source:
https://arxiv.org/abs/2508.20981
Informationen zur Zitierung
: ActLoc: Learning to Localize on the Move via Active Viewpoint Selection, Conference on Robot Learning (CoRL), 2025, August, https://arxiv.org/abs/2508.20981, Li.etal.2025b,
@Article{Li.etal.2025b,
author={Li, Jiajie; Sun, Boyang; Di Giammarino, Luca; Blum, Hermann; Pollefeys, Marc},
title={ActLoc: Learning to Localize on the Move via Active Viewpoint Selection},
journal={Conference on Robot Learning (CoRL)},
month={August},
url={https://arxiv.org/abs/2508.20981},
year={2025},
abstract={Reliable localization is critical for robot navigation, yet most existing systems implicitly assume that all viewing directions at a location are equally informative. In practice, localization becomes unreliable when the robot observes unmapped, ambiguous, or uninformative regions. To address this, we present ActLoc, an active viewpoint-aware planning framework for enhancing localization accuracy...}}