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arxiv: 2304.00645 · v1 · pith:KLWTYRSEnew · submitted 2023-04-02 · 💻 cs.RO

Safe and Efficient Navigation in Extreme Environments using Semantic Belief Graphs

classification 💻 cs.RO
keywords robotsemantic-basedbeliefenvironmentenvironmentssemanticefficientmethod
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To achieve autonomy in unknown and unstructured environments, we propose a method for semantic-based planning under perceptual uncertainty. This capability is crucial for safe and efficient robot navigation in environment with mobility-stressing elements that require terrain-specific locomotion policies. We propose the Semantic Belief Graph (SBG), a geometric- and semantic-based representation of a robot's probabilistic roadmap in the environment. The SBG nodes comprise of the robot geometric state and the semantic-knowledge of the terrains in the environment. The SBG edges represent local semantic-based controllers that drive the robot between the nodes or invoke an information gathering action to reduce semantic belief uncertainty. We formulate a semantic-based planning problem on SBG that produces a policy for the robot to safely navigate to the target location with minimal traversal time. We analyze our method in simulation and present real-world results with a legged robotic platform navigating multi-level outdoor environments.

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