Epileptic Seizure Detection using EEG Signals based on 1D-CNN Approach

2020 20th International Conference on Sciences and Techniques of Automatic Control and Computer Engineering (STA) Pub Date : 2020-12-20 DOI:10.1109/STA50679.2020.9329321

Dhouha Sagga, Amira Echtioui, R. Khemakhem, M. Ghorbel

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引用次数: 4

Abstract

Epilepsy is one of the chronic neural conditions branded by an excessive and uncontrolled electrical explosion in the brain; it appears as seizures. This anomaly affects almost 1percent of the world. For this reason, seizure detection has become a subject of interest in the last decade, to perform these analyzes, study characteristics of brain activity, furthermore neurological disorders, and especially epileptic seizures electroencephalography (EEG) is used. Diverse scientific methods have been used to reliably detect epileptic seizures due to EEG Signals. In this analysis, deep learning based on CNN 1D convolutional neural networks were developed, as used as models for DL, VGGNET, and ResNet. The tests were conducted using standard data sets. The proposed method was exercised on 23 subjects of the CHBMIT dataset, which successfully achieved an average accuracy of 97.60% and 97.32% respectively for ResNet and VGGNET. The results obtained suggest the effectiveness of the use of ResNet in epileptic seizure detection.

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基于1D-CNN方法的脑电信号癫痫发作检测

癫痫是一种慢性神经疾病，其特征是大脑中过度和不受控制的电爆炸;表现为癫痫发作。这种异常影响了世界上近1%的地区。由于这个原因，癫痫发作检测在过去的十年中已经成为一个感兴趣的主题，为了进行这些分析，研究大脑活动的特征，进一步研究神经系统疾病，特别是癫痫发作的脑电图(EEG)。多种科学方法已被用于可靠地检测由脑电图信号引起的癫痫发作。在本分析中，我们开发了基于CNN一维卷积神经网络的深度学习，作为DL、VGGNET和ResNet的模型。使用标准数据集进行测试。在CHBMIT数据集的23个受试者上进行了实验，结果表明，该方法对ResNet和VGGNET的平均准确率分别达到97.60%和97.32%。结果表明ResNet在癫痫发作检测中的有效性。

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2020 20th International Conference on Sciences and Techniques of Automatic Control and Computer Engineering (STA)

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