Automatic Seizure Identification from EEG Signals Based on Brain Connectivity Learning.

IF 6.6 2区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

International Journal of Neural Systems Pub Date : 2022-11-01 Epub Date: 2022-08-26 DOI:10.1142/S0129065722500502

Yanna Zhao, Mingrui Xue, Changxu Dong, Jiatong He, Dengyu Chu, Gaobo Zhang, Fangzhou Xu, Xinting Ge, Yuanjie Zheng

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引用次数: 2

Abstract

Epilepsy is a neurological disorder caused by brain dysfunction, which could cause uncontrolled behavior, loss of consciousness and other hazards. Electroencephalography (EEG) is an indispensable auxiliary tool for clinical diagnosis. Great progress has been made by current seizure identification methods. However, the performance of the methods on different patients varies a lot. In order to deal with this problem, we propose an automatic seizure identification method based on brain connectivity learning. The connectivity of different brain regions is modeled by a graph. Different from the manually defined graph structure, our method can extract the optimal graph structure and EEG features in an end-to-end manner. Combined with the popular graph attention neural network (GAT), this method achieves high performance and stability on different patients from the CHB-MIT dataset. The average values of accuracy, sensitivity, specificity, F1-score and AUC of the proposed model are 98.90%, 98.33%, 98.48%, 97.72% and 98.54%, respectively. The standard deviations of the above five indicators are 0.0049, 0.0125, 0.0116 and 0.0094, respectively. Compared with the existing seizure identification methods, the stability of the proposed model is improved by 78-95%.

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基于脑连通性学习的脑电信号癫痫发作自动识别。

癫痫是一种由脑功能障碍引起的神经系统疾病，可能导致行为失控、意识丧失和其他危害。脑电图是临床诊断中不可缺少的辅助工具。目前的查封鉴定方法取得了很大进展。然而，这些方法在不同患者身上的效果差异很大。为了解决这一问题，我们提出了一种基于脑连通性学习的癫痫发作自动识别方法。大脑不同区域的连通性用一个图来建模。与手工定义图结构不同，该方法可以端到端提取最优图结构和脑电特征。结合流行的图注意神经网络(GAT)，该方法在CHB-MIT数据集的不同患者上实现了高性能和稳定性。该模型的准确率、灵敏度、特异性、f1评分和AUC的平均值分别为98.90%、98.33%、98.48%、97.72%和98.54%。上述五个指标的标准差分别为0.0049、0.0125、0.0116和0.0094。与现有的癫痫发作识别方法相比，该模型的稳定性提高了78 ~ 95%。

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

International Journal of Neural Systems 工程技术-计算机：人工智能

CiteScore

11.30

自引率

28.80%

发文量

116

审稿时长

24 months

期刊介绍： The International Journal of Neural Systems is a monthly, rigorously peer-reviewed transdisciplinary journal focusing on information processing in both natural and artificial neural systems. Special interests include machine learning, computational neuroscience and neurology. The journal prioritizes innovative, high-impact articles spanning multiple fields, including neurosciences and computer science and engineering. It adopts an open-minded approach to this multidisciplinary field, serving as a platform for novel ideas and enhanced understanding of collective and cooperative phenomena in computationally capable systems.