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Learning Hierarchical Graph-Based Policy for Goal-Reaching in Unknown Environments

Yuxiang Cui, Shuhao Ye, Xuecheng Xu, Hao Sha, Cheng Wang, Longzhong Lin, Zhe Liu, Rong Xiong, Yue Wang

发表年份
2024
引用次数
2

摘要

Goal-reaching in unknown environments is one of the essential tasks in robot applications. Large-scale perception and long-horizon decision-making are the keys to solving this task as the operation scope expands or complexity rises. Existing navigation methods may suffer from degraded performance in complicated environments induced by scalability-limited map representation or greedy decision strategy. We propose the path-extended graph as a compact map representation providing sufficient structural information within a reasonable receptive field and incorporate it into a hierarchical policy for higher efficiency and generalizability. The path-extended graph contains the concise topology of environment structure and frontier layout for large-scale perception, avoiding the impact of redundant information. The hierarchical policy solves long-horizon non-myopic decision-making through a high-level frontier selection policy using deep reinforcement learning (DRL) and a low-level motion controller that handles path planning and collision avoidance. Simulation and real-world experiments demonstrate that our method outperforms other competitive approaches in avoiding redundant movement and achieves efficient goal-reaching, especially in complex environments.

关键词

Computer scienceGraphTheoretical computer science

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