DIFFERENTIATION OF DICHOTOMOUS EMOTIONAL STATES IN ELECTRODERMAL ACTIVITY SIGNALS USING HIGHER-ORDER CROSSING FEATURES AND PARAMETRIC CLASSIFIERS

Biomedical sciences instrumentation Pub Date : 2021-04-01 DOI:10.34107/yhpn9422.04322

Y. R. Veeranki, Nagarajan Ganapathy, R. Swaminathan

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引用次数: 1

Abstract

Prediction and recognition of happy and sad emotional states play important roles in many aspects of human life. In this work, an attempt has been made to classify them using Electrodermal Activity (EDA). For this, EDA signals are obtained from a public database and decomposed into tonic and phasic components. Features, namely Hjorth and higher-order crossing, are extracted from the phasic component of the signal. Further, these extracted features are fed to four parametric classifiers, namely, linear discriminant analysis, logistic regression, multilayer perceptron, and naive bayes for the classification. The results show that the proposed approach can classify the dichotomous happy and sad emotional states. The multilayer perceptron classifier is accurate (85.7%) in classifying happy and sad emotional states. The proposed method is robust in handling the dynamic variation of EDA signals for happy and sad emotional states. Thus, it appears that the proposed method could be able to understand the neurological, psychiatrical, and biobehavioural mechanisms of happy and sad emotional states.

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利用高阶交叉特征和参数分类器区分皮肤电活动信号中的二分情感状态

对快乐和悲伤情绪状态的预测和识别在人类生活的许多方面发挥着重要作用。在这项工作中，尝试使用皮肤电活性（EDA）对它们进行分类。为此，从公共数据库中获得EDA信号，并将其分解为主音分量和相位分量。从信号的相位分量中提取特征，即Hjorth和高阶交叉。此外，这些提取的特征被馈送到四个参数分类器，即用于分类的线性判别分析、逻辑回归、多层感知器和朴素贝叶斯。结果表明，该方法能够对快乐和悲伤的情绪状态进行分类。多层感知器分类器对快乐和悲伤情绪状态的分类准确率为85.7%。所提出的方法在处理快乐和悲伤情绪状态的EDA信号的动态变化方面是稳健的。因此，所提出的方法似乎能够理解快乐和悲伤情绪状态的神经、心理和生物行为机制。

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来源期刊

Biomedical sciences instrumentation

CiteScore

0.50

自引率

0.00%

发文量