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TAMOLS: Terrain-Aware Motion Optimization for Legged Systems

Fabian Jenelten, Ruben Grandia, Farbod Farshidian, Marco Hutter

发表年份
2022
引用次数
85

摘要

Terrain geometry is, in general, nonsmooth, nonlinear, nonconvex, and, if perceived through a robot-centric visual unit, appears partially occluded and noisy. This article presents the complete control pipeline capable of handling the aforementioned problems in real-time. We formulate a trajectory optimization problem that jointly optimizes over the base pose and footholds, subject to a height map. To avoid converging into undesirable local optima, we deploy a graduated optimization technique. We embed a compact, contact-force free stability criterion that is compatible with the nonflat ground formulation. Direct collocation is used as transcription method, resulting in a nonlinear optimization problem that can be solved online in less than ten milliseconds. To increase robustness in the presence of external disturbances, we close the tracking loop with a momentum observer. Our experiments demonstrate stair climbing, walking on stepping stones, and over gaps, utilizing various dynamic gaits.

关键词

Control theory (sociology)Robustness (evolution)Computer scienceOptimization problemTrajectory optimizationRobotNonlinear programmingNonlinear systemTerrainTrajectory

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