MS-Mapping: Multi-session LiDAR Mapping with Wasserstein-based Keyframe Selection

Large-scale multi-session LiDAR mapping plays a crucial role in various applications but faces significant challenges in data redundancy and pose graph scalability. This paper present MS-Mapping, a novel multi-session LiDAR mapping system that combines an incremental mapping scheme with support for various LiDAR-based odometry, enabling high-precision and consistent map assembly in large-scale environments. Our approach introduces a real-time keyframe selection method based on the Wasserstein distance, which effectively reduces data redundancy and pose graph complexity. We formulate the LiDAR point cloud keyframe selection problem using a similarity method based on Gaussian mixture models (GMM) and tackle the real-time challenge by employing an incremental voxel update method. Extensive experiments on large-scale campus scenes and over \SI{12.8}{km} of public and self-collected datasets demonstrate the efficiency, accuracy, and consistency of our map assembly approach. To facilitate further research and development in the community, we make our code https://github.com/JokerJohn/MS-Mapping and datasets publicly available.