基于脑电图的情感效价检测，用于可重复测量的情感。

EEG-based detection of emotional valence towards a reproducible measurement of emotions.

机构信息

Laboratory of Augmented Reality for Health Monitoring (ARHeMLab), Department of Electrical Engineering and Information Technology, University of Naples Federico II, Naples, Italy.

Interdepartmental Center for Research on Management and Innovation in Healthcare (CIRMIS), University of Naples Federico II, Naples, Italy.

出版信息

Sci Rep. 2021 Nov 3;11(1):21615. doi: 10.1038/s41598-021-00812-7.

DOI:10.1038/s41598-021-00812-7

PMID:34732756

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8566577/

Abstract

A methodological contribution to a reproducible Measurement of Emotions for an EEG-based system is proposed. Emotional Valence detection is the suggested use case. Valence detection occurs along the interval scale theorized by the Circumplex Model of emotions. The binary choice, positive valence vs negative valence, represents a first step towards the adoption of a metric scale with a finer resolution. EEG signals were acquired through a 8-channel dry electrode cap. An implicit-more controlled EEG paradigm was employed to elicit emotional valence through the passive view of standardized visual stimuli (i.e., Oasis dataset) in 25 volunteers without depressive disorders. Results from the Self Assessment Manikin questionnaire confirmed the compatibility of the experimental sample with that of Oasis. Two different strategies for feature extraction were compared: (i) based on a-priory knowledge (i.e., Hemispheric Asymmetry Theories), and (ii) automated (i.e., a pipeline of a custom 12-band Filter Bank and Common Spatial Pattern). An average within-subject accuracy of 96.1 %, was obtained by a shallow Artificial Neural Network, while k-Nearest Neighbors allowed to obtain a cross-subject accuracy equal to 80.2%.

摘要

提出了一种可重复测量基于 EEG 的系统情感的方法学贡献。建议使用情感效价检测作为用例。效价检测沿着情感的双因素模型理论的区间量表发生。二选一，正效价与负效价，代表了朝着采用具有更精细分辨率的度量量表迈出的第一步。通过 8 通道干电极帽采集 EEG 信号。采用内隐——更受控的 EEG 范式，通过被动观看标准化视觉刺激（即 Oasis 数据集）来引发情感效价，25 名无抑郁障碍的志愿者参与了该实验。自我评估量表问卷的结果证实了实验样本与 Oasis 的兼容性。比较了两种不同的特征提取策略：（i）基于先验知识（即，半球不对称理论），和（ii）自动化（即，自定义 12 带滤波器组和公共空间模式的流水线）。浅层人工神经网络获得了 96.1%的平均个体内准确性，而 k-最近邻允许获得等于 80.2%的跨个体准确性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5972/8566577/072f1fc3b282/41598_2021_812_Fig1_HTML.jpg

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基于脑电图的情感效价检测，用于可重复测量的情感。

EEG-based detection of emotional valence towards a reproducible measurement of emotions.

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