一种基于深度学习的指尖血容量脉搏情绪识别方法

H. P. Fordson, Katherine Gardhouse, Nicholas G. Cicero, J. Chikazoe, A. Anderson, Eve Derosa
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引用次数: 1

摘要

情绪是身心健康和总体幸福的核心。我们非常需要经济实惠且无创地跟踪情绪状态的时刻变化及其转化为慢性疾病。血容量脉冲(BVP)是一种广泛使用的传感器,用于测量血容量变化和心率,并嵌入到许多生物反馈系统和应用中。尽管如此,目前的研究还缺乏脑动电位特征在情绪检测中的作用。虽然工程师们对心率变异性(HRV)的分析及其自主神经系统的调节越来越感兴趣,但仍需要设计一种系统来研究由于现实生活压力因素而引起的心率变异性变化,以及人们对情绪的不同反应。本研究采用情绪分析生理信号数据库(DEAP),根据音乐视频的效价唤醒量表评估被试的情绪反应。我们展示了一种新的方法来增强原始特征和归一化特征的周围血管的血容量。HRV的特征包括速度图、多尺度熵(MSE)、功率谱密度(PSD)和由BVP得到的统计矩。我们进一步提出嵌入参与者的年龄和性别作为增强特征的权重。最后,我们使用多层感知器(MLP)作为分类器来评估我们的方法。结果显示,在效价和觉醒维度上,f1得分分别提高了8.4%和7.3%。这些进步可能有助于建立闭环情绪检测和干预系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Deep Learning Based Emotion Recognition Approach to well Being from Fingertip Blood Volume Pulse
Emotions are central to physical and mental health and general well being. There is a great need to affordably and non invasively track moment to moment changes in emotional states and their conversion into chronic conditions. Blood Volume Pulse (BVP) is a widely used sensor for measuring blood volume changes, heart rate, and is embedded in numerous biofeedback systems and applications. Nonetheless, the role of BVP features relating to emotion detection is lacking in current studies. While engineers have become more interested in the analysis of heart rate variability (HRV) and its regulation by the autonomic nervous system, there is a need to design systems that can investigate their variations due to real life stressors and how people respond to emotions differently. The study employs the database for emotion analysis using physiological signals (DEAP) in assessing emotional responses of subjects according to valence arousal scale to music videos. We demonstrate a novel approach to augmenting original features and normalized features of blood volume in peripheral vessels. The features of HRV include tachogram, multi-scale entropy (MSE), power spectral density (PSD), and statistical moments derived from BVP. We further propose embedding age and gender of participants as a weight to the augmented features. We finally used multilayer perceptron (MLP) as classifier to evaluate our approach. Obtained results show an 8.4% and 7.3% improvement in F1-score in the valence and arousal dimension respectively. Such advances may aid in building closed-loop emotion detection and intervention systems.
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