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Run Like a Dog: Learning Based Whole-Body Control Framework for Quadruped Gait Style Transfer

Fulong Yin, Annan Tang, Liangwei Xu, Yue Cao, Y. Zheng, Zhengyou Zhang, Xiangyu Chen

发表年份
2021
引用次数
9

摘要

In this paper, a learning-based whole-body loco-motion controller is proposed, which enables quadruped robots to perform running in the style of real animals. We use a low-level controller based on multi-rigid body dynamics to calculate desired torques for each joint, while the high-level neural network policy planning the expected gait and foothold. The policy is trained with reinforcement learning, so that the robot can track a variety of trajectories according to the gait patterns recorded from real-world dogs. We transfer the walking and running gait style to quadrupeds in simulation, involving pace, trot, high-speed gallop and natural transitions. The performance is evaluated by the synchronization rate of contact state between the policy result and the recorded sequence. In the experiments, the robot runs steadily at a speed of 2 m/s and showcases a notable synchronization rate of about 80%. Without prior knowledge, the policy demonstrates a realistic foothold distribution that covers the central area of the torso, which is prevalent in running animals.

关键词

TorsoGaitRobotComputer sciencePaceReinforcement learningSynchronization (alternating current)Controller (irrigation)Transfer of learningSimulation

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