人体模型的几何年龄方法与平均和特定于主体的人体测量学相关联，使用在侧面碰撞中评估的小身材女性模型进行了演示。

Methodology to geometrically age human body models to average and subject-specific anthropometrics, demonstrated using a small stature female model assessed in a side impact.

机构信息

Department of Mechanical and Mechatronics Engineering, University of Waterloo, Waterloo, Canada.

Injury Biomechanics Research Center, Ohio State University, Columbus, OH, USA.

出版信息

Comput Methods Biomech Biomed Engin. 2023 Sep;26(10):1208-1219. doi: 10.1080/10255842.2022.2112187. Epub 2022 Aug 18.

DOI:10.1080/10255842.2022.2112187

PMID:35980145

Abstract

The aged population has been associated with an increased risk of injury in car-crash, creating a critical need for improved assessment of safety systems. Finite element human body models (HBMs) have been proposed, but require representative geometry of the aged population and high mesh quality. A new hybrid Morphing-CAD methodology was applied to a 26-year-old (YO) 5 percentile female model to create average 75YO and subject-specific 86YO HBMs. The method achieved accurate morphing targets while retaining high mesh quality. The three HBMs were integrated into a side sled impact test demonstrating similar kinematic response but differing rib fracture patterns.

摘要

老年人口与车祸受伤风险增加有关，这就需要对安全系统进行改进评估。已经提出了有限元人体模型（HBM），但需要有代表性的老年人群体几何形状和高质量的网格。一种新的混合变形- CAD 方法被应用于一个 26 岁（YO）的 5%女性模型，以创建平均 75 岁和特定于个体的 86 岁 HBM。该方法在保留高质量网格的同时，实现了精确的变形目标。这三个 HBM 被集成到一个侧面碰撞测试中，显示出相似的运动学响应，但肋骨骨折模式不同。

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人体模型的几何年龄方法与平均和特定于主体的人体测量学相关联，使用在侧面碰撞中评估的小身材女性模型进行了演示。

Methodology to geometrically age human body models to average and subject-specific anthropometrics, demonstrated using a small stature female model assessed in a side impact.

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