Study on Fast Human Activity Recognition Based on Optimized Feature Selection

2017 16th International Symposium on Distributed Computing and Applications to Business, Engineering and Science (DCABES) Pub Date : 2017-10-01 DOI:10.1109/DCABES.2017.31

Hanyuan Xu, Zhibin Huang, Jue Wang, Zilu Kang

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引用次数: 9

Abstract

Sensor-based human activity recognition has attracted much scholarly attention due to its merit of wide applicability. However, because of such hardware limitations as battery capacity and computing power, most current generation of wearable devices cannot yet benefit from those activity recognition methods based on deep learning theory and high dimension features since implementing these methods are time-consuming and need a relatively large amount of calculation. A solution, therefore, is proposed for this situation, which aims to reduce computational complexity by reducing the feature dimension through analyzing the linear correlation between the features. Based on the support vector machine model of single-layer fully connected network, the training and recognition time are significantly reduced while the recognition accuracy is still ensured. The experiment is based on the public dataset in the UCI Machine Learning Repository, and it uses Caffe, a deep learning framework, to structure the support vector machine model. In the experiment, when the feature dimension is reduced from 561 to 130, the training time can be reduced by 70% while the recognition accuracy is kept at a promising 91%.

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基于优化特征选择的人体活动快速识别研究

基于传感器的人体活动识别因其广泛的适用性而受到学术界的广泛关注。然而，由于电池容量和计算能力等硬件限制，大多数当前一代可穿戴设备还不能从基于深度学习理论和高维特征的活动识别方法中获益，因为这些方法的实现耗时且需要相对大量的计算。针对这种情况，本文提出了一种解决方案，通过分析特征之间的线性相关性，降低特征维数，从而降低计算复杂度。基于单层全连接网络的支持向量机模型，在保证识别精度的前提下，显著减少了训练和识别时间。实验基于UCI Machine Learning Repository中的公共数据集，使用深度学习框架Caffe构建支持向量机模型。在实验中，当特征维数从561降至130时，训练时间减少了70%，而识别准确率保持在91%。

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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来源期刊

2017 16th International Symposium on Distributed Computing and Applications to Business, Engineering and Science (DCABES)

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