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Posture Correction of Quadruped Robot for Adaptive Slope Walking

Chenxiao Yu, Liguang Zhou, Huihuan Qian, Yangsheng Xu

发表年份
2018
引用次数
15

摘要

The ability to maintain balance and stability is a major challenge for quadruped robots in locomotion. For example, when walking in the unstructured environment, the robot not only needs to adjust its gait according to the terrain information, but also needs to tune the body posture based on the real-time body posture acquired from inertial measurement unit (IMU) to maintain stability. In this paper, we present a method that focuses on the design of the posture correction controller based on the IMU feedback for adaptive slope walking for a quadruped robot. To this end, the posture correction controller is integrated into the foot trajectory generator to maintain balance. We experimentally validated our approach both on simulation and real quadruped robot. Compared with the one only with the foot trajectory generator, the quadruped robot can walk more stable with the posture correction controller integrated into the foot trajectory generator and has a better locomotion ability. Our method increases locomotion stability when walking on the slopes.

关键词

Inertial measurement unitTrajectoryRobotGaitController (irrigation)Control theory (sociology)Computer scienceTerrainBalance (ability)Simulation

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