利用基于频谱图的特征提取和机器学习技术,实现最佳皮电活动分段,以增强情感识别。

International journal of neural systems Pub Date : 2024-05-01 Epub Date: 2024-03-21 DOI:10.1142/S0129065724500278
Sriram Kumar P, Jac Fredo Agastinose Ronickom
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引用次数: 0

摘要

在利用生理信号进行情绪识别的临床和科学研究中,选择合适的分段对提高结果至关重要。在我们的研究中,我们为情绪识别系统优化了皮电活动(EDA)部分。最初,我们从两个公开可用的数据集中获取了 EDA 信号:连续注释情绪信号(CASE)和可穿戴压力与情感检测(WESAD),分别用于四级维度和三级分类情绪分类。这些信号经过预处理,并使用 "凸优化到 EDA "方法分解为相位信号。然后,将相位信号分割成两个相等的部分,每个部分再分割成五个不重叠的窗口。然后使用短时傅里叶变换和梅尔频率倒频谱为每个窗口生成频谱图,并从中提取 85 个特征。我们为第一部分、第二部分和整个相位信号建立了四个机器学习模型,以研究它们在情绪识别中的性能。在 CASE 数据集中,我们使用整体相位信号取得了 62.54% 的最高多类准确率,使用第二部分相位信号取得了 61.75% 的最高多类准确率。相反,WESAD 数据集在三类情绪分类方面表现出色,整个相位和第二部分相位片段的准确率均达到 96.44%。因此,为了获得最佳结果,强烈建议使用 EDA 的第二部分。
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Optimal Electrodermal Activity Segment for Enhanced Emotion Recognition Using Spectrogram-Based Feature Extraction and Machine Learning.

In clinical and scientific research on emotion recognition using physiological signals, selecting the appropriate segment is of utmost importance for enhanced results. In our study, we optimized the electrodermal activity (EDA) segment for an emotion recognition system. Initially, we obtained EDA signals from two publicly available datasets: the Continuously annotated signals of emotion (CASE) and Wearable stress and affect detection (WESAD) for 4-class dimensional and three-class categorical emotional classification, respectively. These signals were pre-processed, and decomposed into phasic signals using the 'convex optimization to EDA' method. Further, the phasic signals were segmented into two equal parts, each subsequently segmented into five nonoverlapping windows. Spectrograms were then generated using short-time Fourier transform and Mel-frequency cepstrum for each window, from which we extracted 85 features. We built four machine learning models for the first part, second part, and whole phasic signals to investigate their performance in emotion recognition. In the CASE dataset, we achieved the highest multi-class accuracy of 62.54% using the whole phasic and 61.75% with the second part phasic signals. Conversely, the WESAD dataset demonstrated superior performance in three-class emotions classification, attaining an accuracy of 96.44% for both whole phasic and second part phasic segments. As a result, the second part of EDA is strongly recommended for optimal outcomes.

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