Farrell M Todd, Herr Hugh
Biomechatronics Group, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.
Annu Int Conf IEEE Eng Med Biol Soc. 2011;2011:6041-6. doi: 10.1109/IEMBS.2011.6091493.
Lower-limb prostheses are rapidly advancing with greater computing power and sensing modalities. This paper is an attempt to begin exploring the trade-off between extrinsic and intrinsic control modalities. In this case, between electromyographic (extrinsic) and several internal sensors that can be used for intrinsic control. We propose a method that will identify the particular features, taken from two trans-femoral amputee and one trans-tibial amputee, during locomotion on varying terrain, that perfectly discriminate between locomotion modes. From this we are able to identify the source of the discriminability from a large-set of features that does not depend on the type of amputation. Also, we comment on the use of this algorithm in selecting the most discriminatory and least encumbering sensor/feature combination for transitions when the ground underneath the foot is unknown for trans-tibial amputees.
随着计算能力和传感方式的不断提升,下肢假肢正在迅速发展。本文旨在开始探索外在控制方式和内在控制方式之间的权衡。在这种情况下,是肌电图(外在)与几种可用于内在控制的内部传感器之间的权衡。我们提出了一种方法,该方法将识别从两名大腿截肢者和一名小腿截肢者在不同地形上行走时获取的特定特征,这些特征能够完美地区分不同的行走模式。由此,我们能够从一大组不依赖于截肢类型的特征中识别出可区分性的来源。此外,我们还讨论了该算法在为小腿截肢者选择最具区分性且负担最小的传感器/特征组合以应对脚下地面未知时的过渡情况中的应用。