在须基上进行力和力矩测量的须传感。

IF 6.4 2区 计算机科学 Q1 ROBOTICS
E L Starostin, V G A Goss, G H M van der Heijden
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引用次数: 0

摘要

我们解决了一个理论问题,即在须(触觉传感器)的底部测量的力和力矩允许预测须与物体接触的点在空间中的位置。我们处理三维变形的一般情况以及平面构型的特殊情况。所有的变形都被视为准静态的,并且假定接触是无摩擦的。我们表明,所需的独立力或力矩的最小数量是三个,但控制弹性平衡方程的守恒量阻止某些三元组在除尖端外沿晶须的任何点接触的情况下给出唯一解。这些守恒量的存在取决于晶须的材料和几何性质。对于锥形和本质弯曲的晶须,对接触点的预测没有阻碍。我们证明了坐标系的选择(笛卡尔坐标系或圆柱坐标系)会影响合适三元组的数量。还简要讨论了尖端接触和多点接触。我们的研究结果解释了最近文献中的数值观察结果,并为机器人触觉传感装置的设计提供了指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Whisker Sensing by Force and Moment Measurements at the Whisker Base.

We address the theoretical question which forces and moments measured at the base of a whisker (tactile sensor) allow for the prediction of the location in space of the point at which a whisker makes contact with an object. We deal with the general case of three-dimensional deformations as well as with the special case of planar configurations. All deformations are treated as quasi-static, and contact is assumed to be frictionless. We show that the minimum number of independent forces or moments required is three but that conserved quantities of the governing elastic equilibrium equations prevent certain triples from giving a unique solution in the case of contact at any point along the whisker except the tip. The existence of these conserved quantities depends on the material and geometrical properties of the whisker. For whiskers that are tapered and intrinsically curved, there is no obstruction to the prediction of the contact point. We show that the choice of coordinate system (Cartesian or cylindrical) affects the number of suitable triples. Tip and multiple point contact are also briefly discussed. Our results explain recent numerical observations in the literature and offer guidance for the design of robotic tactile sensory devices.

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来源期刊
Soft Robotics
Soft Robotics ROBOTICS-
CiteScore
15.50
自引率
5.10%
发文量
128
期刊介绍: Soft Robotics (SoRo) stands as a premier robotics journal, showcasing top-tier, peer-reviewed research on the forefront of soft and deformable robotics. Encompassing flexible electronics, materials science, computer science, and biomechanics, it pioneers breakthroughs in robotic technology capable of safe interaction with living systems and navigating complex environments, natural or human-made. With a multidisciplinary approach, SoRo integrates advancements in biomedical engineering, biomechanics, mathematical modeling, biopolymer chemistry, computer science, and tissue engineering, offering comprehensive insights into constructing adaptable devices that can undergo significant changes in shape and size. This transformative technology finds critical applications in surgery, assistive healthcare devices, emergency search and rescue, space instrument repair, mine detection, and beyond.
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