Lower limb gait activity recognition using Inertial Measurement Units for rehabilitation robotics

2015 International Conference on Advanced Robotics (ICAR) Pub Date : 2015-07-27 DOI:10.1109/ICAR.2015.7251474

M. Hamdi, M. Awad, M. Abdelhameed, F. Tolbah

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引用次数: 10

Abstract

In this paper, The authors considered a human lower limb gait activity recognition algorithm, using an IMU sensory network consisting of 4 IMUs distributed to the lower limb. The proposed algorithm depends on Random Forest for classification and a Hybrid Mutual Information and Genetic Algorithm (HMIGA) as a features selection technique. HMIGA selects the most distinguishing features from Discrete Wavelet Coefficient (DWT) features and other statistical and physical (self designed) features. The proposed algorithm is compared with Support Vector Machine (SVM) to classify 5 activities and the results are presented on 6 subjects with 2% average error rate with 1.9% superiority on SVM. Moreover, HMIGA as a feature selector is compared to the traditional feature selectors and DWT as a feature also compared to statistical and physical features, showing their influence on the activity recognition process. Finally, the most important features selected by HMIGA are presented, proving the important role of the shank's sensor on the recognition process, where almost 50% of the selected features are from the shank sensor.

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基于惯性测量单元的康复机器人下肢步态活动识别

在本文中，作者考虑了一种人类下肢步态活动识别算法，该算法使用由分布在下肢的4个IMU组成的IMU感觉网络。该算法依靠随机森林分类和混合互信息遗传算法(HMIGA)作为特征选择技术。HMIGA从离散小波系数(DWT)特征和其他统计和物理(自设计)特征中选择最显著的特征。将该算法与支持向量机(SVM)进行比较，对6个主题进行分类，平均错误率为2%，优于支持向量机(SVM) 1.9%。此外，将HMIGA作为特征选择器与传统特征选择器进行了比较，将DWT作为特征与统计特征和物理特征进行了比较，显示了它们对活动识别过程的影响。最后，给出了HMIGA选择的最重要特征，证明了小腿传感器在识别过程中的重要作用，其中近50%的选择特征来自小腿传感器。

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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2015 International Conference on Advanced Robotics (ICAR)

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