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RING++: Roto-Translation Invariant Gram for Global Localization on a Sparse Scan Map

Xuecheng Xu, Sha Lu, Jun Wu, Haojian Lu, Qiuguo Zhu, Yiyi Liao, Rong Xiong, Yue Wang

2023IEEE Transactions on Robotics74 citationsDOI

Abstract

Global localization plays a critical role in many robot applications. LiDAR-based global localization draws the community's focus with its robustness against illumination and seasonal changes. To further improve the localization under large viewpoint differences, we propose RING++ that has roto-translation-invariant representation for place recognition and global convergence for both rotation and translation estimation. With the theoretical guarantee, RING++ is able to address the large viewpoint difference using a lightweight map with sparse scans. In addition, we derive sufficient conditions of feature extractors for the representation preserving the roto-translation invariance, making RING++ a framework applicable to generic multichannel features. To the best of our knowledge, this is the first learning-free framework to address all the subtasks of global localization in the sparse scan map. Validations on real-world datasets show that our approach demonstrates better performance than state-of-the-art learning-free methods and competitive performance with learning-based methods. Finally, we integrate RING++ into a multirobot/session simultaneous localization and mapping system, performing its effectiveness in collaborative applications.

Topics & Concepts

Robustness (evolution)Artificial intelligenceComputer scienceTranslation (biology)Computer visionInvariant (physics)Sparse approximationRobotPattern recognition (psychology)MathematicsChemistryMathematical physicsMessenger RNAGeneBiochemistryRobotics and Sensor-Based LocalizationIndoor and Outdoor Localization TechnologiesAdvanced Image and Video Retrieval Techniques
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