Estimating the Localizability in Tunnel-like Environments using LiDAR and UWB

Abstract

The application of robots in inspection tasks has been growing quickly thanks to the advancements in autonomous navigation technology, especially the robot localization techniques in GPS-denied environments. Although many methods have been proposed to localize a robot using onboard sensors such as cameras and LiDARs, achieving robust localization in geometrically degenerated environments, e.g. tunnels, remains a challenging problem. In this work, we focus on the robust localization problem in such situations. A novel degeneration characterization model is presented to estimate the localizability at a given location in the prior map. And the localizability of a LiDAR and an Ultra-Wideband (UWB) ranging radio is analyzed. Additionally, a probabilistic sensor fusion method is developed to combine IMU, LiDAR and the UWB. Experiment results show that this method allows for robust localization inside a long straight tunnel.