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Locomotion Adaption for Hydraulic Humanoid Wheel-Legged Robots Over Rough Terrains

Xu Li, Songyuan Zhang, Haitao Zhou, Haibo Feng, Yili Fu

2021International Journal of Humanoid Robotics17 citationsDOI

Abstract

Compared with the traditional hydraulic humanoid robots, the WLR-II, a novel hydraulic wheel-legged robot developed by using hose-less design, can significantly increase the reliability and maneuverability. The WLR-II combines the rough-terrain capability of legs with the efficiency of wheels. In this paper, a novel framework called rough-terrain adaption framework (RTAF) is presented which allows WLR-II to move on both flat terrains and terrains with unmodeled contact dynamics. RTAF is a hierarchical framework, which has a high-level balance controller and a low-level impedance controller that a high-performance nested torque controller with feed-forward velocity compensation is used. The low-level impedance controller for the hydraulic-driven unit can cancel out the load dynamics influence such as unexpected terrain disturbances and increase the force-tracking performance. With the high-level balance controller, the robot is able to handle unexpected terrain disturbances through wheel-ground force estimation, pitch/roll balance control and impedance parameter regulator. The proposed approach is suitable for a wheel-legged humanoid robot to manage balance through torque control at joints and regulate force-based interaction on rough terrains. The performance of the proposed RTAF is evaluated on variable gradient slopes and grassland which are the typical rough-terrain scenarios for real-world applications. The experimental results reveal that the maximum speed of grassland movement can reach 3 km/h.

Topics & Concepts

TerrainController (irrigation)RobotComputer scienceControl theory (sociology)TorqueHumanoid robotSimulationArtificial intelligenceControl (management)PhysicsBiologyEcologyThermodynamicsAgronomyRobotic Locomotion and ControlProsthetics and Rehabilitation RoboticsNeurogenetic and Muscular Disorders Research
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