A closed-form solution for real-time ZMP gait generation and feedback stabilization
Russ Tedrake, Scott Kuindersma, Robin Deits, Kanako Miura
- 发表年份
- 2015
- 引用次数
- 82
摘要
Here we present a closed-form solution to the continuous time-varying linear-quadratic regulator problem for zero-moment point (ZMP) tracking. This generalizes previous analytical solutions for gait generation by allowing "soft" tracking (with a quadratic cost) of the desired ZMP, and by providing the feedback gains for the resulting time-varying optimal controller. This enables very fast O(n) computation, with n the number of piecewise polynomial segments in the desired ZMP trajectory. Results are presented using the Atlas humanoid robot where dynamic walking is achieved by recomputing the optimal controller online.
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