针对脑电信号使用多输入深度特征学习网络自动检测癫痫发作

IF 1.4 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Journal of Sensors Pub Date : 2024-02-05 DOI:10.1155/2024/8835396

Qi Sun, Yuanjian Liu, Shuangde Li

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引用次数: 0

摘要

癫痫是一种与癫痫发作有关的神经系统疾病，影响人类的正常行为。癫痫发作的不可预测性给疾病的治疗带来了巨大障碍。基于脑电图（EEG）的癫痫发作自动检测方法可以帮助专家预测癫痫发作，提高治疗效率。利用信号的单视角特征无法准确实现癫痫发作检测。此外，人工特征提取也是一项耗时的任务。要设计一种高性能的癫痫发作识别方法，多视角特征的自动学习成为癫痫发作检测不可或缺的一部分。因此，本文提出了一种多输入深度特征学习网络（MDFLN）模型，该模型综合考虑了脑电信号的时域和时频（TF）域特征。MDFLN 模型通过深度学习网络自动提取信号的特征信息。然后，利用双向长短期记忆（BLSTM）网络来区分癫痫发作和非癫痫发作事件。此外，还在两个公开数据集中验证了所提出的网络结构的有效性。实验结果表明，基于多视角特征的拟议方法的分类准确率比单视角特征至少高出 2.2%。MDFLN 在 CHB-MIT 和波恩数据集上取得了更好的性能，准确率分别为 98.09% 和 98.4%。利用验证集对模型进行微调也提高了分类性能。与最先进的癫痫发作检测方法相比，多输入深度学习网络在 CHB-MIT 数据集上的灵敏度更高，能力更强。所提出的癫痫发作自动检测方法可以减少时间消耗，有效协助专家进行临床诊断和治疗。

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Automatic Seizure Detection Using Multi-Input Deep Feature Learning Networks for EEG Signals

Epilepsy, a neurological disease associated with seizures, affects the normal behavior of human beings. The unpredictability of epileptic seizures has caused great obstacles to the treatment of the disease. The automatic seizure detection method based on electroencephalogram (EEG) can assist experts in predicting seizures to improve treatment efficiency. Epileptic seizure detection cannot be achieved accurately using the single-view characteristics of the signals. Moreover, manual feature extraction is a time-consuming task. To design a high-performance seizure identification method, automatic learning of multi-view features becomes an indispensable part for seizure detection. Therefore, the paper proposes a multi-input deep feature learning networks (MDFLN) model, which comprehensively considers the features from the time domain and the time–frequency (TF) domain for EEG signals. The MDFLN model automatically extracts the feature information of the signals through deep learning networks. Then, the bidirectional long short-term memory (BLSTM) network is used to distinguish seizure and nonseizure events. Furthermore, the effectiveness of the proposed network structure is verified in two public datasets. The experimental results demonstrate that the classification accuracy of the proposed method based on multi-view features is at least 2.2% higher than the single-view features. The MDFLN achieves better performance on CHB-MIT and Bonn datasets with accuracy of 98.09% and 98.4%, respectively. The fine-tuned model with the validation set also improves the classification performance. Compare with the state-of-the-art seizure detection methods, the multi-input deep learning network has superior competence with high sensitivity on the CHB-MIT dataset. The proposed automatic seizure detection method can reduce time consumption and effectively assist experts in the clinical diagnosis and treatment.

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来源期刊

Journal of Sensors ENGINEERING, ELECTRICAL & ELECTRONIC-INSTRUMENTS & INSTRUMENTATION

CiteScore

4.10

自引率

5.30%

发文量

833

审稿时长

18 weeks

期刊介绍： Journal of Sensors publishes papers related to all aspects of sensors, from their theory and design, to the applications of complete sensing devices. All classes of sensor are covered, including acoustic, biological, chemical, electronic, electromagnetic (including optical), mechanical, proximity, and thermal. Submissions relating to wearable, implantable, and remote sensing devices are encouraged. Envisaged applications include, but are not limited to: -Medical, healthcare, and lifestyle monitoring -Environmental and atmospheric monitoring -Sensing for engineering, manufacturing and processing industries -Transportation, navigation, and geolocation -Vision, perception, and sensing for robots and UAVs The journal welcomes articles that, as well as the sensor technology itself, consider the practical aspects of modern sensor implementation, such as networking, communications, signal processing, and data management. As well as original research, the Journal of Sensors also publishes focused review articles that examine the state of the art, identify emerging trends, and suggest future directions for developing fields.