Splat-LOAM: Gaussian Splatting LiDAR Odometry and Mapping

Emanuele Giacomini; Luca Di Giammarino; Lorenzo De Rebotti; Giorgio Grisetti; Martin R. Oswald

2025 ICCV ICCV 2025

Splat-LOAM: Gaussian Splatting LiDAR Odometry and Mapping

Abstract

LiDARs provide accurate geometric measurements, making them valuable for ego-motion estimation and reconstruction tasks.Although its success, managing an accurate and lightweight representation of the environment still poses challenges.Both classic and NeRF-based solutions have to trade off accuracy over memory and processing times.In this work, we build on recent advancements in Gaussian Splatting methods to develop a novel \lidar odometry and mapping pipeline that exclusively relies on Gaussian primitives for its scene representation.Leveraging spherical projection, we drive the refinement of the primitives uniquely from LiDAR measurements.Experiments show that our approach matches the current registration performance, while achieving SOTA results for mapping tasks with minimal GPU requirements. This efficiency makes it a strong candidate for further exploration and potential adoption in real-time robotics estimation tasks.

🌉 Interdisciplinary Bridge — Computer Vision and Robotics

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Emanuele Giacomini , Luca Di Giammarino , Lorenzo De Rebotti , Giorgio Grisetti , Martin R. Oswald

Topics

Computer Vision > Analysis > 3D Vision Computer Vision > Domain-Specific > Autonomous Driving Robotics > Capabilities > Navigation

Keywords

point cloud gaussian splatting simultaneous localization and mapping ego-motion estimation lidar odometry

Download PDF

Related papers

MA-CIR: A Multimodal Arithmetic Benchmark for Composed Image Retrieval 2025

SimMLM: A Simple Framework for Multi-modal Learning with Missing Modality 2025

MonSTeR: a Unified Model for Motion, Scene, Text Retrieval 2025

ASGS: Single-Domain Generalizable Open-Set Object Detection via Adaptive Subgraph Searching 2025

Robust Dataset Condensation using Supervised Contrastive Learning 2025