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arxiv: 2009.10019 · v4 · pith:5JE6FYGQ · submitted 2020-09-21 · cs.RO · cs.LG

Learning a Contact-Adaptive Controller for Robust, Efficient Legged Locomotion

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classification cs.RO cs.LG
keywords controllerrobustchangescontrolefficientframeworklearninglearns
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We present a hierarchical framework that combines model-based control and reinforcement learning (RL) to synthesize robust controllers for a quadruped (the Unitree Laikago). The system consists of a high-level controller that learns to choose from a set of primitives in response to changes in the environment and a low-level controller that utilizes an established control method to robustly execute the primitives. Our framework learns a controller that can adapt to challenging environmental changes on the fly, including novel scenarios not seen during training. The learned controller is up to 85~percent more energy efficient and is more robust compared to baseline methods. We also deploy the controller on a physical robot without any randomization or adaptation scheme.

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