Detection of Event Related Patterns using Hilbert Transform in Brain Computer Interface

2019 IEEE Canadian Conference of Electrical and Computer Engineering (CCECE) Pub Date : 2019-05-05 DOI:10.1109/CCECE.2019.8861570

Fatemeh Shahlaei, Niraj Bagh, M. Zambare, R. Machireddy, A. D. Shaligram

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引用次数: 2

Abstract

The feature extraction and classification of motor imagery (MI) tasks comprehend incentive issues in the scope of electroencephalogram (EEG) based brain computer interface (BCI). In this study, proposed method i.e. Hilbert transform (HT) is used for the detection of event-related patterns (ERPs) and the machine learning classifiers were implemented for the classification of both left and right hand MI tasks. The proposed method followed two steps: First, sensorimotor frequency band (8–30 Hz) related to MI activities were extracted from the signals. The important features i.e. band power (BP) and ERPs were extracted from the HT. The significant extracted features were fed into the different machine learning classifiers such as Naive Bayes (NB), linear discriminant analysis (LDA) and support vector machine (SVM). The classification accuracy (% CA), Cohen’s kappa coefficient (K) and area under the receiver operating characteristic (Auc) for all classifiers were evaluated. The proposed method was tested on publicly available BCI-competition 2008 Graz data set (II-b). Results show that the features extracted from the HT meets higher performance (% CA=82.22%, K=0.63 and Auc =0.81) in comparison with the conventional methods. Which is demonstrates that the proposed approach has capability to enhance BCI for real-time applications.

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基于Hilbert变换的脑机接口事件相关模式检测

运动意象任务的特征提取与分类，在基于脑机接口(BCI)的脑电图范围内理解了激励问题。在本研究中，提出的方法即希尔伯特变换(HT)用于事件相关模式(erp)的检测，并实现了机器学习分类器用于左手和右手MI任务的分类。该方法分为两个步骤:首先，从信号中提取与MI活动相关的感觉运动频带(8-30 Hz);从HT中提取出重要的特征，即波段功率(BP)和erp。将提取的重要特征输入到不同的机器学习分类器中，如朴素贝叶斯(NB)、线性判别分析(LDA)和支持向量机(SVM)。对所有分类器的分类精度(% CA)、Cohen’s kappa系数(K)和接收者工作特征下面积(Auc)进行了评估。所提出的方法在公开可用的BCI-competition 2008 Graz数据集(II-b)上进行了测试。结果表明，与传统方法相比，HT提取的特征具有更高的性能(% CA=82.22%， K=0.63, Auc =0.81)。结果表明，该方法具有增强BCI实时应用的能力。

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2019 IEEE Canadian Conference of Electrical and Computer Engineering (CCECE)

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