Control of contact forces: The role of tactile feedback for contact localization

A. Prete, F. Nori, G. Metta, L. Natale
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引用次数: 22

Abstract

This paper investigates the role of precise estimation of contact points in force control. This analysis is motivated by scenarios in which robots make contacts, either voluntarily or accidentally, with different parts of their body. Control paradigms that are usually implemented in robots with no tactile system, make the hypothesis that contacts occur at the end-effectors only. In this paper we try to investigate what happens when this assumption is not verified. First we consider a simple feedforward force control law, and then we extend it by introducing a proportional feedback term. For both controllers we find the error in the resulting contact force, that is induced by a hypothetic error in the estimation of the contact point. We show that, depending on the geometry of the contact, incorrect estimation of contact points can induce undesired joint accelerations. We validate the presented analysis with tests on a simulated robot arm. Moreover we consider a complex real world scenario, where most of the assumptions that we make in our analytical derivation do not hold. Through tests on the iCub humanoid robot we see how errors in contact localization affect the performance of a parallel force/position controller. In order to estimate contact points and contact forces on the forearm of the iCub we do not use any model of the environment, but we exploit its 6-axis force/torque sensor and its sensorized skin.
接触力的控制:触觉反馈对接触定位的作用
本文研究了接触点的精确估计在力控制中的作用。这种分析的动机是机器人主动或无意地与身体的不同部位进行接触的场景。通常在没有触觉系统的机器人中实现的控制范式,假设接触只发生在末端执行器上。在本文中,我们试图研究当这个假设没有得到验证时会发生什么。首先考虑一个简单的前馈力控制律,然后通过引入比例反馈项对其进行扩展。对于这两种控制器,我们发现了结果接触力的误差,这是由接触点估计中的假设误差引起的。我们表明,根据接触的几何形状,接触点的不正确估计会导致不希望的关节加速度。我们通过模拟机械臂的测试验证了所提出的分析。此外,我们考虑了一个复杂的现实世界场景,其中我们在分析推导中所做的大多数假设都不成立。通过对iCub人形机器人的测试,我们看到了接触定位误差如何影响并联力/位置控制器的性能。为了估计iCub前臂上的接触点和接触力,我们没有使用任何环境模型,但我们利用了它的6轴力/扭矩传感器及其传感器皮肤。
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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