基于生物力学模拟和小波包变换的行人头部碰撞频响特性研究
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1.湖南科技大学机电工程学院;2.交通伤与人机工效重庆市重点实验室

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LI Guibing, WangXinyu, XU Shengkang, LI Kui, QIU Jinlong
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1.School of Mechanical Engineering, Hunan University of Science and Technology;2.Chongqing Key Laboratory of Traffic Injury and Vehicle Ergonomics

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    摘要:

    目的 探索车辆碰撞中的行人头部动力学响应频域特性及其与时域损伤指标之间的相关性。方法 通过基于人体模型的有限元仿真模拟不同边界条件下的行人头部与车辆碰撞过程,采用小波包信号分析方法处理获得仿真中的行人头部频域响应。结果 发罩区域碰撞的行人头部能量主要分散在0-300Hz频带,风挡区域碰撞头部能量则主要集中在0-5Hz频带;行人头部碰撞频带能量峰值随其线性和旋转速度增大呈上升趋势,且线性速度较高时旋转速度对频带能量峰值的影响更显著;发罩和风挡区域碰撞的头部频带能量峰值与颅骨损伤评价时域指标的线性相关性R2值分别为0.85和0.61,但其与脑损伤评价时域指标的相关性相对较低(R2<0.5)。结论 行人头部频域响应特征受碰撞速度和位置影响,频带能量峰值可潜在表征颅骨损伤风险,但频带能量峰值所在频段及集中程度与头部损伤风险不相关。研究结果可为结合时频响应的头部钝性冲击损伤评价提供基础参考。

    Abstract:

    Objective The purpose of the current study is to explore the frequency domain characteristics of pedestrian head dynamic response in vehicle collisions and to investigate the correlation between frequency domain parameters and time domain injury criteria. Methods Finite element modelling based on a human body model was used to simulate the process of pedestrian head-to-vehicle impacts and the wavelet packet signal analysis method was employed to obtain the frequency domain response of pedestrian head in the simulations. Results The head energy in impacts at the hood area is mainly dispersed in the 0-300Hz frequency band, while the head energy in contacts at the windshield area is mainly concentrated in the 0-5Hz frequency band. The peak energy of frequency band for pedestrian head generally increases with the increase of linear and rotational speed, and the influence of rotational speed on the peak energy of frequency band is more significant when the linear speed is higher. The linear correlation R2 values between the peak energy of the head frequency band caused by the collision between the hood and windshield area and the time-domain criterion for skull injury are 0.85 and 0.61, respectively. But their correlation with the time-domain indicators for brain injury evaluation is relatively low (R2<0.5). Conclusions The frequency domain response characteristics of pedestrian heads are affected by collision speed and position. The peak energy of the frequency band can potentially characterize the risk of skull injury, but the frequency band and concentration of the peak energy of the frequency band are not related to the risk of head injury. The results of this study can provide basic reference for the evaluation of head blunt injury combined with time-frequency response.

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  • 收稿日期:2024-09-10
  • 最后修改日期:2024-10-13
  • 录用日期:2024-10-21
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