Effect of Airbag Deployment Phases on Tactile Occupant Detection Sensor

2020 XII International Science-Technical Conference AUTOMOTIVE SAFETY Pub Date : 2020-10-21 DOI:10.1109/AUTOMOTIVESAFETY47494.2020.9435283

Naveen Shirur, C. Birkner, R. Henze, T. Deserno, Darshan Dudhat

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引用次数: 2

Abstract

An airbag is a crucial passive safety system that protects an occupant in the event of severe vehicle collisions. Its restraint effect can be controlled only when the occupant’s contact data with the airbag is available. A new capacitive tactile sensor is developed and installed on the airbag surface to provide the occupant’s first contact time, contact area and position on the airbag. Based on this feedback, the airbag pressure can be controlled. An airbag deployment is associated with different phases from trigger to full deployment. Before detecting the occupant, it is important to know the effect of these phases on the sensor. In this paper, the phase effects of dynamic airbag deployment on the contact sensor during the simplified static deployment tests are analyzed and discussed. Time-to-first-gas, unfolding of the textile, inflation, and cable capacitance effects are the key points brought to discussion. The results reveal, no effects of time-to-first-gas and inflation on the contact sensor. While the unfolding and cable capacitance have significant effects on the sensor which should be accounted for the occupant detection algorithm.

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安全气囊展开阶段对触觉乘员检测传感器的影响

安全气囊是一个关键的被动安全系统，在发生严重的车辆碰撞时保护乘客。只有当乘员与安全气囊的接触数据可用时，才能控制其约束效果。一种新的电容式触觉传感器被开发并安装在安全气囊表面，以提供乘员的第一次接触时间、接触面积和安全气囊上的位置。根据此反馈，可以控制安全气囊的压力。安全气囊展开与从触发到完全展开的不同阶段相关。在检测乘员之前，了解这些相位对传感器的影响是很重要的。本文分析和讨论了在简化静态展开试验中，气囊动态展开对接触式传感器的相位效应。首次气体的时间、纺织品的展开、通货膨胀和电缆电容效应是讨论的关键点。结果表明，初始气体时间和膨胀对接触式传感器没有影响。而展开和电缆电容对传感器的影响较大，在乘员检测算法中应考虑到这一点。

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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2020 XII International Science-Technical Conference AUTOMOTIVE SAFETY

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