Development of an Airbag Geometry Specific for Autonomous Vehicles

Comput. Chem. Eng. Pub Date : 2023-10-11 DOI:10.3390/eng4040146

Bartolomeu Franco, José Manuel Alves Ribeiro, Isidro de Jesús Sánchez-Arce

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Abstract

Airbags are important safety devices in modern vehicles. However, their effectiveness is linked to the occupants being seated in standard positions. Although autonomous vehicles are less accident-prone, they are also equipped with airbags, similar to any other vehicle. Additionally, autonomous vehicles allow for occupants seated in non-standard positions, so in the case of a collision, the airbags’ effectiveness decreases. In this work, an airbag design suitable for both assisted and autonomous driving conditions is proposed, the driver’s airbag being the object of interest. Airbag geometry, threads, seam strength, and seam geometries were selected following Design of Experiments (DoE) methodologies and a series of experimental tests. Moreover, an adaptive system based on sewn tethers allows the airbag to adapt to the driving mode, which is proposed and validated. Finally, all the findings were experimentally tested on two different geometries. The results were satisfactory as the deployed airbag shape and dimensions were as expected, indicating that this airbag design is capable of protecting the driver of a vehicle capable of autonomous driving.

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自动驾驶汽车专用安全气囊几何结构的研究

安全气囊是现代汽车重要的安全装置。然而，它们的有效性与居住者的标准坐姿有关。虽然自动驾驶汽车不太容易发生事故，但它们也配备了安全气囊，与任何其他车辆类似。此外，自动驾驶汽车允许乘客坐在非标准位置，因此在发生碰撞的情况下，安全气囊的有效性会降低。在这项工作中，提出了一种适合辅助驾驶和自动驾驶条件的安全气囊设计，驾驶员的安全气囊是感兴趣的对象。根据实验设计(DoE)方法和一系列实验测试，选择安全气囊的几何形状、螺纹、接缝强度和接缝几何形状。此外，提出了一种基于缝系的自适应系统，使安全气囊能够适应驾驶模式，并进行了验证。最后，所有的发现都在两种不同的几何形状上进行了实验测试。结果显示，气囊的形状和尺寸符合预期，表明该气囊设计能够保护自动驾驶车辆的驾驶员。

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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Comput. Chem. Eng.

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