下肢与假肢耦合系统步态分析的异质模型

Volume 2: 16th International Conference on Multibody Systems, Nonlinear Dynamics, and Control (MSNDC) Pub Date : 2020-08-17 DOI:10.1115/detc2020-22392

Yang Lv, H. Fang, Jian Xu, Qining Wang, Xiaoxu Zhang

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引用次数: 0

摘要

考虑到健康下肢与被动假体之间的耦合效应，本文建立了健康下肢和被动假体运动分别由中枢模式发生器(central pattern generator, CPG)和髋关节摆动驱动的异构动力学模型进行步态分析。将人地接触过程建模为单侧力反作用过程，而不是约束过程，从而得到步态运动的精细表示。采用数值计算方法求解了异构模型的响应，并与实际步态试验进行了对比分析。初步结果表明，异质模型不仅能很好地描述截肢者的步态，而且揭示了一种新的步态特征——周期加倍。参数分析进一步表明，通过放大被截肢侧髋关节的垂直运动，双周期步态将恢复到单周期模式。这种动态分叉，模仿髋关节摆动适应的过程，为跛行补偿机制提供了新的见解。

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A Heterogeneous Model for Gait Analysis of the Lower-Limb and the Prosthesis Coupled System

By considering the coupling effect between the healthy lower-limb and the passive prosthesis, this paper builds a heterogeneous dynamic model for gait analysis, where the motions of the healthy limb and the prosthesis are driven by the central pattern generator (CPG) and the hip joint swing, respectively. The foot-ground contact is modelled as the process of unilateral force reaction rather than the constraint to get a refined representation of the gait motion. The response of the heterogeneous model, solved by numerical calculation, is then analyzed by comparison with a real gait test. Preliminary results show that the heterogeneous model not only describes the amputee’s gait well but also reveals a new gait feature of period-doubling. Parameter analysis further indicates that the period-doubling gait will return to the single-period pattern by amplifying the vertical motion of the hip joint at the amputated side. This dynamic bifurcation, which mimics the process of hip swing adaption, provides new insight into the compensatory mechanism for lamely walking.

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Volume 2: 16th International Conference on Multibody Systems, Nonlinear Dynamics, and Control (MSNDC)

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