Torque Estimation in Variable Stiffness Actuators

B. Penzlin, Lin Liu, S. Leonhardt, B. Misgeld
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引用次数: 6

Abstract

For the use in rehabilitation robotic devices, various types of actuators are currently being investigated. Variable impedance actuators seem promising concerning individualized training, comfort and safety. For the control of actuators, some sensors are required, however, to keep the rehabilitation device light, also the implementation of measuring instruments should be reduced. Thus, in this contribution, we introduce three different ways to observe the interaction torque of an electrical actuator. Using a detailed model of an actuator and mechanical system, the interaction torque is investigated through different sensor signals. In a real actuator, non-linearities appear. Thus, for an accurate estimation, an unscented Kalman filter is promising. For serial elastic actuators, the deflection can be directly quantified on the compliant element using strain gauges. Another way is to detect the deformation of compliant elements using two angular encoders. All ways to sense the interaction torque are analyzed for a sinusoidal excitation.
变刚度执行器的转矩估计
为了在康复机器人装置中使用,目前正在研究各种类型的执行器。可变阻抗执行器在个性化训练、舒适性和安全性方面似乎很有前景。对于执行器的控制,需要一些传感器,但为了保持康复装置的轻量化,也应该减少测量仪器的实施。因此,在本贡献中,我们介绍了三种不同的方法来观察电动执行器的相互作用扭矩。利用作动器与机械系统的详细模型,研究了不同传感器信号下作动器与机械系统的相互作用力矩。在实际的执行器中,会出现非线性。因此,为了获得准确的估计,无气味卡尔曼滤波器是有希望的。对于系列弹性致动器,挠度可以直接量化在柔性元件上使用应变片。另一种方法是使用两个角度编码器检测柔性元件的变形。分析了正弦激励下的各种相互作用力矩检测方法。
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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