An EMG-position controlled system for an active ankle-foot prosthesis: an initial experimental study

S. Au, P. Bonato, H. Herr
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引用次数: 160

Abstract

Although below-knee prostheses have been commercially available for some time, today's devices are completely passive, and consequently, their mechanical properties remain fixed with walking speed and terrain. To improve the current performance of below-knee prostheses, we study the feasibility of using the amputee's residual limb EMG signals to control the ankle position of an active ankle-foot prosthesis. We propose two control schemes to predict the amputee's intended ankle position: a neural network approach and a muscle model approach. We test these approaches using EMG data measured from an amputee for several target ankle movement patterns. We find that both controllers demonstrate the ability to predict desired ankle movement patterns qualitatively. In the current implementation, the biomimetic EMG-controller demonstrates a smoother and more natural movement pattern than that demonstrated by the neural network approach, suggesting that a biologically-motivated, model-based approach may offer certain advantages in the control of active ankle prostheses.
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用于主动踝足假体的肌电图位置控制系统:初步实验研究
虽然膝盖以下的假肢在商业上可用已经有一段时间了,但今天的设备是完全被动的,因此,它们的机械性能与行走速度和地形保持固定。为了改善目前膝下假体的性能,我们研究了利用截肢者残肢肌电信号控制主动踝足假体踝关节位置的可行性。我们提出了两种控制方案来预测截肢者的预期脚踝位置:神经网络方法和肌肉模型方法。我们使用从截肢者身上测量的几个目标踝关节运动模式的肌电图数据来测试这些方法。我们发现两个控制器都能定性地预测期望的踝关节运动模式。在目前的实施中,仿生肌电信号控制器显示出比神经网络方法更平滑和更自然的运动模式,这表明基于生物动机的模型方法可能在控制主动踝关节假体方面具有一定的优势。
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