Iterative Robust Stabilization Algorithm for Periodic Orbits of Hybrid Dynamical Systems: Application to Bipedal Running *

Kaveh Akbari Hamed; Jessy W. Grizzle

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Iterative Robust Stabilization Algorithm for Periodic Orbits of Hybrid Dynamical Systems: Application to Bipedal Running *

机译：混合动力系统周期轨道的迭代鲁棒稳定算法：在双足跑步中的应用 *

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摘要

This paper presents a systematic numerical algorithm to design optimal Hoo continuous-time controllers to robustly stabilize periodic orbits for hybrid dynamical systems in the presence of discrete-time uncertainties. A parameterized set of closed-loop hybrid systems is assumed for which there exists a common periodic orbit. The algorithm is created based on an iterative sequence of optimization problems involving Bilinear and Linear Matrix Inequalities (BMIs and LMIs). At each iteration, the optimal oo problem is translated into a BMI optimization problem which can be easily solved using available software packages. Some sufficient conditions for the convergence of the iterative algorithm are presented. The power of the algorithm is then demonstrated in designing robust stabilizing virtual constraints for running of a highly underactuated bipedal robot with 7 degrees of underactuation in the presence of impact model uncertainties.

机译：该文提出了一种系统的数值算法，用于设计最优的Hoo连续时间控制器，以在存在离散时间不确定性的情况下稳健地稳定混合动力系统的周期轨道。假设存在一组参数化的闭环混合系统，其存在一个共同的周期轨道。该算法基于涉及双线性和线性矩阵不等式（BMI 和 LMI）的优化问题的迭代序列创建。在每次迭代中，最优的 %oo 问题都会转化为 BMI 优化问题，该问题可以使用可用的软件包轻松解决。为迭代算法的收敛提供了一些充分条件。然后，通过设计鲁棒的稳定虚拟约束来证明该算法的强大功能，该约束用于在存在影响模型不确定性的情况下运行具有 7 度欠动度的高度欠动双足机器人。

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来源
《ifac papersonline》 |2015年第27期|161-168|共8页
作者
Kaveh Akbari Hamed; Jessy W. Grizzle;
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作者单位

Department of Mechanical Engineering, San Diego State University;

Department of Electrical Engineering, University of Michigan;

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原文格式 PDF
正文语种英语
中图分类
关键词
Hybrid Periodic Orbits; Robust Orbital Stability; Underactuated Bipedal Running;

机译：混合周期轨道;稳健的轨道稳定性;驱动不足的双足跑步;

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Iterative Robust Stabilization Algorithm for Periodic Orbits of Hybrid Dynamical Systems: Application to Bipedal Running *

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