Whole-Body Control and Estimation of Humanoid Robots with Link Flexibility

2022 IEEE-RAS 21st International Conference on Humanoid Robots (Humanoids) Pub Date : 2022-11-28 DOI:10.1109/Humanoids53995.2022.10000157

Giulio Romualdi, N. Villa, Stefano Dafarra, D. Pucci, O. Stasse

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引用次数: 1

Abstract

This article presents a whole-body controller for humanoid robots affected by concentrated link flexibility. We characterize the link flexibility by introducing passive joints at the concentration of deflections, which separate the flexible links into two or more rigid bodies. In this way, we extend our robot model to take link deflections into account as underactuated extra degrees of freedom, allowing us to design a whole-body controller capable to anticipate deformations. Since in a real scenario, the deflection is not directly measurable, we present an observer aiming at estimating the flexible joint state, namely position, velocity, and torque, only considering the measured contact force and the state of actuated joint. We validate the overall approach in simulations with the humanoid robot TALOS, whose hip is mechanically flexible due to a localized mechanical weakness. Furthermore, the paper compares the proposed whole-body control strategy with state-of-the-art approaches. Finally, we analyze the performance of the estimator in the case of different values of hip elasticity.

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具有关节柔性的仿人机器人全身控制与估计

提出了一种针对集中连杆柔性影响的仿人机器人全身控制器。我们通过在挠度集中引入被动关节来表征连杆的灵活性，这将柔性连杆分离为两个或多个刚体。通过这种方式，我们扩展了我们的机器人模型，将连杆偏转作为欠驱动的额外自由度考虑在内，使我们能够设计一个能够预测变形的全身控制器。由于在实际场景中，挠度是不能直接测量的，我们提出了一个观测器，目的是估计柔性关节的状态，即位置、速度和扭矩，只考虑测量到的接触力和驱动关节的状态。我们用仿人机器人TALOS进行仿真验证了整个方法，TALOS的髋关节由于局部机械缺陷而具有机械柔性。此外，本文将提出的全身控制策略与最先进的方法进行了比较。最后，我们分析了该估计器在不同髋关节弹性值情况下的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2022 IEEE-RAS 21st International Conference on Humanoid Robots (Humanoids)

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