一种利用脑电图信号进行癫痫发作检测的高效自动化技术

Zakareya Lasefr, Sai Shiva V. N. R. Ayyalasomayajula, K. Elleithy
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引用次数: 9

摘要

癫痫是一种以癫痫发作为特征的神经系统疾病。癫痫病发作可以通过大脑的正常和异常活动来分析。这种异常活动只能通过使用有效的算法来观察。一个有效的算法的过程总是使用信号处理,其中癫痫信号可以被视为输入信号。本文介绍了一种检测癫痫信号的技术,并比较了不同阶段脑信号的特征。我们的算法是基于信号处理技术来检测脑电图信号中的癫痫。信号处理以178.6 Hz采样信号开始,使信号工作频率遵循过采样标准。采样后的信号被交给设计好的滤波器,这样就可以去除不需要的噪声,信号就可以被分解了。然后,在五个不同的信号电平上对信号进行分解,在每个电平上使用不同的小波滤波器将其频谱减小到200hz以下。在特征提取中,我们使用了信号特征而不是统计特征,这样我们仍然可以依赖于脑电信号的时域和频域特征。利用支持向量机(SVM)、k近邻(KNN)和人工神经网络(ANN)对这些特征进行分类,检测脑电图信号中的癫痫。结果证明了不同组的大脑信号显示正常行为的大脑信号和癫痫行为的信号与癫痫发作。我们的工作与目前传统方法的比较证明了我们的算法在检测癫痫方面更有效。
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An efficient automated technique for epilepsy seizure detection using EEG signals
Epilepsy is a neurological disorder characterized by epileptic seizures. Epileptic seizure can be analyzed through the normal and abnormal activity of the brain. This abnormal activity can be observed only through the use of an efficient algorithm. The process of an efficient algorithm always uses signal processing in which an epileptic signal can be considered as an input signal. This paper introduces a technique to detect epileptic signal and to compare the characteristics of the brain signals at different stages. Our algorithm is based on signal processing techniques to detect epilepsy in the EEG signal. The signal processing starts with sampling the signal at 178.6 Hz so that the signal operating frequency follows oversampling criteria. The sampled signal is given to the designed filter so that the unwanted noise can be removed and the signal is ready to be decomposed. Then, the signal is decomposed at five different signal levels so that its frequency spectrum is reduced to less than 200 Hz using different wavelet filters at each level. In the feature extraction, we have used signal features rather than statistical features so that we can still rely on time domain and frequency domain features for an EEG signal. These features are classified using Support Vector Machine (SVM), K-Nearest Neighbor (KNN) and Artificial Neural Networks (ANN) to detect the epilepsy in the EEG signal. The results were demonstrated for different sets of brain signal that show the normal behavior of the brain signals and epileptic behavior of the signal with seizure. A comparison of our work with the present traditional methodologies proves that our algorithm is more efficient in detecting epilepsy.
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