English

Topomap: Topological Mapping and Navigation Based on Visual SLAM Maps

Robotics 2018-03-12 v2

Abstract

Visual robot navigation within large-scale, semi-structured environments deals with various challenges such as computation intensive path planning algorithms or insufficient knowledge about traversable spaces. Moreover, many state-of-the-art navigation approaches only operate locally instead of gaining a more conceptual understanding of the planning objective. This limits the complexity of tasks a robot can accomplish and makes it harder to deal with uncertainties that are present in the context of real-time robotics applications. In this work, we present Topomap, a framework which simplifies the navigation task by providing a map to the robot which is tailored for path planning use. This novel approach transforms a sparse feature-based map from a visual Simultaneous Localization And Mapping (SLAM) system into a three-dimensional topological map. This is done in two steps. First, we extract occupancy information directly from the noisy sparse point cloud. Then, we create a set of convex free-space clusters, which are the vertices of the topological map. We show that this representation improves the efficiency of global planning, and we provide a complete derivation of our algorithm. Planning experiments on real world datasets demonstrate that we achieve similar performance as RRT* with significantly lower computation times and storage requirements. Finally, we test our algorithm on a mobile robotic platform to prove its advantages.

Keywords

Cite

@article{arxiv.1709.05533,
  title  = {Topomap: Topological Mapping and Navigation Based on Visual SLAM Maps},
  author = {Fabian Blöchliger and Marius Fehr and Marcin Dymczyk and Thomas Schneider and Roland Siegwart},
  journal= {arXiv preprint arXiv:1709.05533},
  year   = {2018}
}

Comments

8 pages

R2 v1 2026-06-22T21:45:25.909Z