Evaluation of a Finger Dummy with a Built-in Sensor System for Safety Assessment

2024 IEEE/SICE International Symposium on System Integration (SII) Pub Date : 2024-01-08 DOI:10.1109/SII58957.2024.10417308

Fengyu Li

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Abstract

Labor shortages and low productivity demand more collaborative operation systems using industrial robots in the current global manufacturing industry. Injuries will possibly occur due to the closer interaction between the robot system and humans. In the field of skin contact safety, the techniques and methods of quantitative assessment are expected. A human dummy consisting of built-in sensors is a solution to obtain the internal physical field. In this study, a dummy finger equipped with a built-in film sensor for contact safety assessment is proposed and evaluated by experiment. The strain measurement model and strain energy sensing principle, which are the most general assessment indexes, are explained. Two kinds of contact conditions on the finger dummy, press and press with slip, are conducted for evaluation. Shear strain and vibration are both successfully measured and reflected in the signal. Measurement of the strain energy transformed from the strain is validated by comparing it with the work result obtained from the force sensor. This sensor system combined with the human body model is evaluated as potentially feasible for assessing physical contact safety.

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评估用于安全评估的内置传感器系统手指假人

在当前的全球制造业中，由于劳动力短缺和生产率低下，需要更多使用工业机器人的协作操作系统。由于机器人系统与人类的互动更加密切，可能会发生伤害事故。在皮肤接触安全领域，量化评估的技术和方法值得期待。由内置传感器组成的人体假人是获取内部物理场的一种解决方案。本研究提出了一种配备内置薄膜传感器的假手指，用于接触安全评估，并通过实验进行了评估。对最通用的评估指标--应变测量模型和应变能传感原理进行了说明。对手指假体进行了两种接触条件的评估：按压和带滑动的按压。剪切应变和振动都被成功测量并反映在信号中。通过与力传感器获得的工作结果进行比较，验证了由应变转化而来的应变能的测量结果。经评估，该传感器系统与人体模型相结合，具有评估物理接触安全性的潜在可行性。

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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2024 IEEE/SICE International Symposium on System Integration (SII)

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