ALICE-LRI: A General Method for Lossless Range Image Generation for Spinning LiDAR Sensors without Calibration Metadata
Samuel Soutullo, Miguel Yermo, David L. Vilari\~no, \'Oscar G. Lorenzo, Jos\'e C. Cabaleiro, Francisco F. Rivera
TL;DR
ALICE-LRI is a novel, sensor-agnostic method that achieves lossless 3D LiDAR range image generation without calibration data, preserving all point cloud information for high-fidelity applications.
Contribution
It introduces the first general algorithm that automatically infers LiDAR intrinsic parameters for perfect, lossless range image projection without manufacturer metadata.
Findings
Achieves zero point loss across all tested datasets.
Maintains geometric accuracy within sensor limits.
Enables high-quality downstream processing and compression.
Abstract
3D LiDAR sensors are essential for autonomous navigation, environmental monitoring, and precision mapping in remote sensing applications. To efficiently process the massive point clouds generated by these sensors, LiDAR data is often projected into 2D range images that organize points by their angular positions and distances. While these range image representations enable efficient processing, conventional projection methods suffer from fundamental geometric inconsistencies that cause irreversible information loss, compromising high-fidelity applications. We present ALICE-LRI (Automatic LiDAR Intrinsic Calibration Estimation for Lossless Range Images), the first general, sensor-agnostic method that achieves lossless range image generation from spinning LiDAR point clouds without requiring manufacturer metadata or calibration files. Our algorithm automatically reverse-engineers the…
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Taxonomy
TopicsRobotics and Sensor-Based Localization · Advanced Optical Sensing Technologies · 3D Shape Modeling and Analysis