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Advancing Humanoid Locomotion: Mastering Challenging Terrains with Denoising World Model Learning

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arxiv 2408.14472 v1 pith:OFHODRD7 submitted 2024-08-26 cs.RO cs.AIcs.SYeess.SY

Advancing Humanoid Locomotion: Mastering Challenging Terrains with Denoising World Model Learning

classification cs.RO cs.AIcs.SYeess.SY
keywords humanoidlearningterrainslocomotionworldchallengingcontroldenoising
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Humanoid robots, with their human-like skeletal structure, are especially suited for tasks in human-centric environments. However, this structure is accompanied by additional challenges in locomotion controller design, especially in complex real-world environments. As a result, existing humanoid robots are limited to relatively simple terrains, either with model-based control or model-free reinforcement learning. In this work, we introduce Denoising World Model Learning (DWL), an end-to-end reinforcement learning framework for humanoid locomotion control, which demonstrates the world's first humanoid robot to master real-world challenging terrains such as snowy and inclined land in the wild, up and down stairs, and extremely uneven terrains. All scenarios run the same learned neural network with zero-shot sim-to-real transfer, indicating the superior robustness and generalization capability of the proposed method.

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Cited by 10 Pith papers

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