UWB/LiDAR Fusion For Cooperative Range-Only SLAM
This addresses localization and mapping challenges for mobile robots in unknown environments, representing an incremental improvement through sensor fusion.
The paper tackles the problem of simultaneous localization and mapping (SLAM) by fusing ultra-wideband (UWB) and LiDAR sensors on a mobile robot, achieving drift-free SLAM in real-time based solely on ranging measurements.
We equip an ultra-wideband (UWB) node and a 2D LiDAR sensor a.k.a. 2D laser rangefinder on a mobile robot, and place UWB beacon nodes at unknown locations in an unknown environment. All UWB nodes can do ranging with each other thus forming a cooperative sensor network. We propose to fuse the peer-to-peer ranges measured between UWB nodes and laser scanning information, i.e. range measured between robot and nearby objects/obstacles, for simultaneous localization of the robot, all UWB beacons, and LiDAR mapping. The fusion is inspired by two facts: 1) LiDAR may improve UWB-only localization accuracy as it gives a more precise and comprehensive picture of the surrounding environment; 2) on the other hand, UWB ranging measurements may remove the error accumulated in the LiDAR-based SLAM algorithm. Our experiments demonstrate that UWB/LiDAR fusion enables drift-free SLAM in real-time based on ranging measurements only.