基于正交响应谱深度神经的行为模式分析用于癫痫发作识别

IF 1 4区工程技术 Q4 INSTRUMENTS & INSTRUMENTATION

Measurement Science Review Pub Date : 2024-04-13 DOI:10.2478/msr-2024-0009

R Vishalakshi, S Mangai, C Sharmila, S Kamalraj

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引用次数: 0

摘要

脑电图（EEG）信号包含大脑的重要信息，被广泛用于支持癫痫分析。通过分析大脑行为模式，可以对不同的癫痫状态进行准确分类。近年来，利用脑电信号进行行为模式分析变得越来越重要。脑电信号嘈杂且非线性，如何设计出准确的方法对不同的癫痫状态进行分类是一项艰巨的任务。本文介绍了一种名为基于正交响应谱的高斯库尔贝克深度神经（QRS-GKDN）的癫痫发作行为模式分析方法。QRS-GKDN 分为三个过程。首先，使用正交镜像滤波器（QMF）对脑电信号进行预处理，然后应用基于功率频率谱（PFS）和响应谱（RS）的特征提取进行行为模式分析。QMF 函数应用于预处理后的脑电图输入信号。然后，使用 PFS 和 RS 函数从处理过的脑电信号中提取行为模式分析的相关特征。最后，采用高斯库尔巴克-莱伯勒深度神经分类法（GKDN）进行癫痫发作识别。此外，还对所提出的方法进行了分析，并与不同样本进行了比较。拟议方法的结果以一种计算高效的方式进行了卓越的预测，可根据分析的行为模式识别癫痫发作，误差和验证时间较少。

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Quadrature Response Spectra Deep Neural Based Behavioral Pattern Analytics for Epileptic Seizure Identification

The brain’s Electroencephalogram (EEG) signals contain essential information about the brain and are widely used to support the analysis of epilepsy. By analyzing brain behavioral patterns, an accurate classification of different epileptic states can be made. The behavioral pattern analysis using EEG signals has become increasingly important in recent years. EEG signals are boisterous and non-linear, and it is a demanding mission to design accurate methods for classifying different epileptic states. In this work, a method called Quadrature Response Spectra-based Gaussian Kullback Deep Neural (QRS-GKDN) Behavioral Pattern Analytics for epileptic seizures is introduced. QRS-GKDN is divided into three processes. First, the EEG signals are preprocessed using the Quadrature Mirror Filter (QMF) and the Power Frequency Spectral (PFS) and Response Spectra (RS)-based Feature Extraction is applied for Behavioral Pattern Analytics. The QMF function is applied to the preprocessed EEG input signals. Then, relevant features for behavioral pattern analysis are extracted from the processed EEG signals using the PFS and RS function. Finally, Gaussian Kullback–Leibler Deep Neural Classification (GKDN) is implemented for epileptic seizure identification. Furthermore, the proposed method is analyzed and compared with dissimilar samples. The results of the Proposed method have superior prediction in a computationally efficient manner for identifying epileptic seizure based on the analyzed behavioral patterns with less error and validation time.

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来源期刊

Measurement Science Review INSTRUMENTS & INSTRUMENTATION-

CiteScore

2.00

自引率

11.10%

发文量

审稿时长

4.8 months

期刊介绍： - theory of measurement - mathematical processing of measured data - measurement uncertainty minimisation - statistical methods in data evaluation and modelling - measurement as an interdisciplinary activity - measurement science in education - medical imaging methods, image processing - biosignal measurement, processing and analysis - model based biomeasurements - neural networks in biomeasurement - telemeasurement in biomedicine - measurement in nanomedicine - measurement of basic physical quantities - magnetic and electric fields measurements - measurement of geometrical and mechanical quantities - optical measuring methods - electromagnetic compatibility - measurement in material science