用于虚拟测试的重力沉降人体模型标准化评估。

Q2 Medicine
B Wade von Kleeck Iii, Juliette Caffrey, Ashley A Weaver, F Scott Gayzik, Jason Hallman
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引用次数: 0

摘要

在安全系统评估中越来越多地使用计算人体模型,这就要求我们更加关注将模型与其就座环境耦合的选定方法。本研究评估了 THUMS v4.0.1 的直立驾驶员姿势和倾斜乘员姿势。每种姿势都在 NCAC 汽车模型中进行重力沉降,以评估模型质量和 HBM 与座椅的耦合。HBM 与座椅的接触摩擦和座椅刚度在一系列潜在输入中变化,以评估一系列潜在输入。重力沉降也在骨盆受到或不受到向目标 H 点移动限制的情况下进行。通过这些组合,对每个姿势进行了 18 次模拟,运行时间为 800 毫秒。此外,还运行了 5 次碰撞脉冲模拟(51.5 km/h delta V),以评估沉降时间对驾驶员运动学的影响。在模拟过程中动能接近于零的结束状态下,在动能相同的时间点比较 HBM 网格质量和 HBM 与座椅耦合指标。结果发现,350 毫秒的重力沉降时间是直立驾驶员姿势的最佳时间,而 290 毫秒的重力沉降时间是倾斜乘客姿势的最佳时间。这表明,与直立乘客相比,倾斜乘客的沉降时间更短,这可能是由于接触面积增大的缘故。建议直立驾驶员姿势采用骨盆约束方法,而斜躺乘客姿势则不建议采用这种方法。推荐的时间足以使两种姿势都达到 800 毫秒重力稳定时间的质量指标。研究发现,驾驶员的运动学特性随重力沉降时间而变化。未来的工作将包括验证这些建议是否适用于不同的 HBM 和测试模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Standardized Assessment of Gravity Settling Human Body Models for Virtual Testing.

The increased use of computational human models in evaluation of safety systems demands greater attention to selected methods in coupling the model to its seated environment. This study assessed the THUMS v4.0.1 in an upright driver posture and a reclined occupant posture. Each posture was gravity settled into an NCAC vehicle model to assess model quality and HBM to seat coupling. HBM to seat contact friction and seat stiffness were varied across a range of potential inputs to evaluate over a range of potential inputs. Gravity settling was also performed with and without constraints on the pelvis to move towards the target H-Point. These combinations resulted in 18 simulations per posture, run for 800 ms. In addition, 5 crash pulse simulations (51.5 km/h delta V) were run to assess the effect of settling time on driver kinematics. HBM mesh quality and HBM to seat coupling metrics were compared at kinetically identical time points during the simulation to an end state where kinetic energy was near zero. A gravity settling time of 350 ms was found to be optimal for the upright driver posture and 290 ms for the reclined occupant posture. This suggests that reclined passengers can be settled for less time than upright passengers, potentially due to the increased contact area. The pelvis constrained approach was recommended for the upright driver posture and was not recommended for the reclined occupant posture. The recommended times were sufficient to gravity settle both postures to match the quality metrics of the 800 ms gravity settled time. Driver kinematics were found to be vary with gravity settling time. Future work will include verifying that these recommendations hold for different HBMs and test modes.

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来源期刊
Stapp car crash journal
Stapp car crash journal Medicine-Medicine (all)
CiteScore
3.20
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