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Practice Makes Perfect: An Optimization-Based Approach to Controlling Agile Motions for a Quadruped Robot

Christian Gehring, Mark A. Hoepflinger, Roland Siegwart, Stelian Coros, Marco Hutter, C. Dario Bellicoso, Huub Heijnen, Remo Diethelm, Michael Bloesch, Péter Fankhauser, Jemin Hwangbo

发表年份
2016
引用次数
117

摘要

This article approaches the problem of controlling quadrupedal running and jumping motions with a parameterized, model-based, state-feedback controller. Inspired by the motor learning principles observed in nature, our method automatically fine tunes the parameters of our controller by repeatedly executing slight variations of the same motion task. This learn-through-practice process is performed in simulation to best exploit computational resources and to prevent the robot from damaging itself. To ensure that the simulation results match the behavior of the hardware platform, we introduce and validate an accurate model of the compliant actuation system. The proposed method is experimentally verified on the torque-controllable quadruped robot StarlETH by executing squat jumps and dynamic gaits, such as a running trot, pronk, and a bounding gait.

关键词

RobotProcess (computing)Computer scienceController (irrigation)Control engineeringExploitTask (project management)SimulationBounding overwatchParameterized complexity

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