Robust 2D lidar-based SLAM in arboreal environments without IMU/GNSS

Simultaneous localization and mapping (SLAM) approaches for mobile robots remains challenging in forest or arboreal fruit farming environments, where tree canopies obstruct Global Navigation Satellite Systems (GNSS) signals. Unlike indoor settings, these agricultural environments possess additional challenges due to outdoor variables such as foliage motion and illumination variability. This paper proposes a solution based on 2D lidar measurements, which requires less processing and storage, and is more cost-effective, than approaches that employ 3D lidars. Utilizing the modified Hausdorff distance (MHD) metric, the method can solve the scan matching robustly and with high accuracy without needing sophisticated feature extraction. The method's robustness was validated using public datasets and considering various metrics, facilitating meaningful comparisons for future research. Comparative evaluations against state-of-the-art algorithms, particularly A-LOAM, show that the proposed approach achieves lower positional and angular errors while maintaining higher accuracy and resilience in GNSS-denied settings. This work contributes to the advancement of precision agriculture by enabling reliable and autonomous navigation in challenging outdoor environments.

@article{nazate-burgos2025_2505.10847,
  title={ Robust 2D lidar-based SLAM in arboreal environments without IMU/GNSS },
  author={ Paola Nazate-Burgos and Miguel Torres-Torriti and Sergio Aguilera-Marinovic and Tito Arévalo and Shoudong Huang and Fernando Auat Cheein },
  journal={arXiv preprint arXiv:2505.10847},
  year={ 2025 }
}