Ngoh Kieron Jie-Han, Gouwanda Darwin, Gopalai Alpha A, Chong Yu Zheng
School of Engineering, Monash University Malaysia, Malaysia.
School of Engineering, Monash University Malaysia, Malaysia.
J Biomech. 2018 Jul 25;76:269-273. doi: 10.1016/j.jbiomech.2018.06.006. Epub 2018 Jun 18.
Wearable technology has been viewed as one of the plausible alternatives to capture human motion in an unconstrained environment, especially during running. However, existing methods require kinematic and kinetic measurements of human body segments and can be complicated. This paper investigates the use of neural network model (NN) and accelerometer to estimate vertical ground reaction force (VGRF). An experimental study was conducted to collect sufficient samples for training, validation and testing. The estimated results were compared with VGRF measured using an instrumented treadmill. The estimates yielded an average root mean square error of less than 0.017 of the body weight (BW) and a cross-correlation coefficient greater than 0.99. The results also demonstrated that NN could estimate impact force and active force with average errors ranging between 0.10 and 0.18 of BW at different running speeds. Using NN and uniaxial accelerometer can (1) simplify the estimation of VGRF, (2) reduce the computational requirement and (3) reduce the necessity of multiple wearable sensors to obtain relevant parameters.
可穿戴技术被视为在无约束环境中捕捉人体运动的一种可行替代方案,尤其是在跑步过程中。然而,现有方法需要对人体各部分进行运动学和动力学测量,可能会很复杂。本文研究了使用神经网络模型(NN)和加速度计来估计垂直地面反作用力(VGRF)。进行了一项实验研究,以收集足够的样本用于训练、验证和测试。将估计结果与使用仪器化跑步机测量的VGRF进行比较。估计结果得出平均均方根误差小于体重(BW)的0.017,互相关系数大于0.99。结果还表明,NN可以在不同跑步速度下估计冲击力和作用力,平均误差在BW的0.10至0.18之间。使用NN和单轴加速度计可以(1)简化VGRF的估计,(2)降低计算要求,(3)减少使用多个可穿戴传感器获取相关参数的必要性。
