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Bipedal Walking on Constrained Footholds: Momentum Regulation via Vertical COM Control

Min Dai, Xiaobin Xiong, Aaron D. Ames

发表年份
2022
引用次数
17

摘要

This paper presents an online walking synthesis methodology to enable dynamic and stable walking on constrained footholds for underactuated bipedal robots. Our approach modulates the change of angular momentum about the foot-ground contact pivot at discrete impact using pre-impact vertical center of mass (COM) velocity. To this end, we utilize the underactuated Linear Inverted Pendulum (LIP) model for approximating the underactuated walking dynamics to provide the desired post-impact angular momentum for each step. Desired outputs are constructed via online optimization combined with closed-form polynomials and tracked via a quadratic program (QP) based controller. This method is demonstrated on two robots, AMBER and 3D Cassie, for which stable walking behaviors with constrained footholds are realized on flat ground, stairs, and randomly located stepping stones.

关键词

UnderactuationInverted pendulumControl theory (sociology)Angular momentumComputer scienceController (irrigation)RobotQuadratic equationMomentum (technical analysis)Mathematics

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