一个类别不平衡感知和可解释的时空图注意网络用于新生儿癫痫发作检测。

IF 6.6 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE International Journal of Neural Systems Pub Date : 2023-09-01 DOI:10.1142/S0129065723500466
Khadijeh Raeisi, Mohammad Khazaei, Gabriella Tamburro, Pierpaolo Croce, Silvia Comani, Filippo Zappasodi
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引用次数: 0

摘要

癫痫是新生儿神经系统疾病最普遍的临床指征。本研究提出了一种基于卷积神经网络(cnn)和图注意网络(GATs)的类别失衡感知和可解释深度学习方法,用于新生儿癫痫发作的准确自动检测。该模型通过多通道脑电信号的图表示,将脑电信号的时间信息与脑电信号通道上的空间信息相结合。一维cnn用于自动开发一个特征集,该特征集准确地表示时域上癫痫发作和非癫痫发作时期的差异。该方法利用注意机制来强调脑区间的关键通道对和信息流。然后使用GAT系数来经验地可视化癫痫发作和非癫痫发作时期的重要区域,这可以为新生儿大脑癫痫发作的位置提供有价值的见解。此外,为了解决严重的类不平衡在新生儿癫痫数据集使用欠采样和局点丢失技术。总体而言,最终的时空图注意网络(ST-GAT)的平均AUC为96.6%,Kappa为0.88,优于以往的基准方法,表明其具有较高的准确性和临床应用潜力。
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A Class-Imbalance Aware and Explainable Spatio-Temporal Graph Attention Network for Neonatal Seizure Detection.

Seizures are the most prevalent clinical indication of neurological disorders in neonates. In this study, a class-imbalance aware and explainable deep learning approach based on Convolutional Neural Networks (CNNs) and Graph Attention Networks (GATs) is proposed for the accurate automated detection of neonatal seizures. The proposed model integrates the temporal information of EEG signals with the spatial information on the EEG channels through the graph representation of the multi-channel EEG segments. One-dimensional CNNs are used to automatically develop a feature set that accurately represents the differences between seizure and nonseizure epochs in the time domain. By employing GAT, the attention mechanism is utilized to emphasize the critical channel pairs and information flow among brain regions. GAT coefficients were then used to empirically visualize the important regions during the seizure and nonseizure epochs, which can provide valuable insight into the location of seizures in the neonatal brain. Additionally, to tackle the severe class imbalance in the neonatal seizure dataset using under-sampling and focal loss techniques are used. Overall, the final Spatio-Temporal Graph Attention Network (ST-GAT) outperformed previous benchmarked methods with a mean AUC of 96.6% and Kappa of 0.88, demonstrating its high accuracy and potential for clinical applications.

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来源期刊
International Journal of Neural Systems
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.
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