Identification of abnormal movements with 3D accelerometer sensors for seizure recognition

Q1 Mathematics Journal of Applied Logic Pub Date : 2017-11-01 DOI:10.1016/j.jal.2016.11.024

José R. Villar , Manuel Menéndez , Enrique de la Cal , Javier Sedano , Víctor M. González

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引用次数: 11

Abstract

Human-activity recognition and seizure-detection techniques have gathered pace with the widespread availability of wearable devices. A study of the literature shows various studies for 3D accelerometer-based seizure detection that describe the selection of acceleration variables and controlled transformations, while discarding the remaining input variable contributions. The aim of this research is to evaluate feature extraction based on different techniques and with the advantage of an overview of all information on the problem. Three feature extraction techniques – namely, Locally Linear Embedding, Principal Component Analysis (PCA) and a Distance-Based PCA – are analyzed and their outcomes compared against K-Nearest Neighbor and Decision Trees. A realistic experimentation simulating epileptic mioclonic convulsions was performed. The PCA-based methods were found to produce solutions that managed the problem perfectly well, either learning specific models for each individual or learning generalized models.

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用3D加速度传感器识别异常运动，以识别癫痫发作

随着可穿戴设备的广泛使用，人类活动识别和癫痫检测技术已经加快了步伐。一项文献研究显示了基于3D加速度计的癫痫检测的各种研究，这些研究描述了加速度变量的选择和控制转换，同时丢弃了剩余的输入变量贡献。本研究的目的是评估基于不同技术的特征提取，并利用对问题的所有信息进行概述的优势。分析了三种特征提取技术，即局部线性嵌入、主成分分析(PCA)和基于距离的PCA，并将其结果与k近邻和决策树进行了比较。进行了模拟癫痫性阵挛性惊厥的现实实验。人们发现，基于pca的方法可以产生完美管理问题的解决方案，要么为每个个体学习特定模型，要么学习广义模型。

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