Can Transient Simulations Improve Lower Limb-Prosthesis Interaction Analysis?

Human Systems Engineering and Design (IHSED 2023): Future Trends and Applications Pub Date : 1900-01-01 DOI:10.54941/ahfe1004153

Vasja Plesec, G. Harih

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Abstract

Human gait is a highly dynamic process; however, most numerical analyses to simulate a lower limb prosthesis wearer are still performed using an implicit static method. To account for the dynamic effects, a transient numerical simulation was performed in this study, simulating a gait cycle of a lower limb-prosthesis system. Donning of the socket followed by heel strike and push-off conditions of the gait were analysed using a recently developed generic transtibial limb model representing an average transtibial amputee. The static results previously obtained were compared with the transient simulation and the results in terms of contact pressure at residual limb-liner interface and von-Mises stresses in the prosthetic socket were evaluated. The numerical results show a significant difference between the transient and static numerical simulations due to the dynamic effect incorporated in the numerical analysis, indicating a need to include these effects to obtain more realistic conditions.

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瞬态模拟能改善下肢假肢相互作用分析吗?

人的步态是一个高度动态的过程;然而，大多数模拟下肢假肢佩戴者的数值分析仍然使用隐式静态方法进行。为了考虑动态影响，本研究进行了瞬态数值模拟，模拟了下肢假肢系统的步态周期。使用最近开发的代表平均跨胫截肢者的通用跨胫肢模型，分析了穿套后脚跟撞击和推离步态的条件。将先前得到的静态结果与瞬态模拟结果进行了比较，并对残肢-衬垫界面接触压力和假体窝内的von-Mises应力进行了评估。数值结果表明，瞬态数值模拟与静态数值模拟之间存在显著差异，这是由于在数值分析中考虑了动态影响，需要考虑这些影响以获得更真实的条件。

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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Human Systems Engineering and Design (IHSED 2023): Future Trends and Applications

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