基于视频气味刺激诱发的脑电图和眼电图信号的多模态情绪识别

IF 4.8 2区 医学 Q2 ENGINEERING, BIOMEDICAL
Minchao Wu;Wei Teng;Cunhang Fan;Shengbing Pei;Ping Li;Guanxiong Pei;Taihao Li;Wen Liang;Zhao Lv
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引用次数: 0

摘要

情感数据是情感识别的基础,而情感识别主要是通过外在激发获得的。为了研究多感官刺激对情绪激发和情绪识别的增强作用,我们设计了一个涉及视觉、听觉和嗅觉的实验范式。我们创建了一个多模态情绪数据集(OVPD-II),该数据集采用了纯视频或视频气味模式作为刺激材料,并记录了脑电图(EEG)和脑电图(EOG)信号。受试者在每次试验后报告的反馈结果表明,视频气味图案在唤起个人情绪方面优于纯视频图案。为了进一步验证视频气味模式的效率,研究人员使用转换器执行情绪识别任务,结果显示,使用视频气味模式的脑电图(EOG)模式的最高准确率达到 86.65%(66.12%),与纯视频模式相比,准确率提高了 1.42%(3.43%)。此外,还开发了结合变换器和联合训练的混合融合(HF)方法,以提高情绪识别任务的性能,该方法对视频-气味模式和纯视频模式的分类准确率分别达到了 89.50% 和 88.47%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multimodal Emotion Recognition Based on EEG and EOG Signals Evoked by the Video-Odor Stimuli
Affective data is the basis of emotion recognition, which is mainly acquired through extrinsic elicitation. To investigate the enhancing effects of multi-sensory stimuli on emotion elicitation and emotion recognition, we designed an experimental paradigm involving visual, auditory, and olfactory senses. A multimodal emotional dataset (OVPD-II) that employed the video-only or video-odor patterns as the stimuli materials, and recorded the electroencephalogram (EEG) and electrooculogram (EOG) signals, was created. The feedback results reported by subjects after each trial demonstrated that the video-odor pattern outperformed the video-only pattern in evoking individuals’ emotions. To further validate the efficiency of the video-odor pattern, the transformer was employed to perform the emotion recognition task, where the highest accuracy reached 86.65% (66.12%) for EEG (EOG) modality with the video-odor pattern, which improved by 1.42% (3.43%) compared with the video-only pattern. What’s more, the hybrid fusion (HF) method combined with the transformer and joint training was developed to improve the performance of the emotion recognition task, which achieved classify accuracies of 89.50% and 88.47% for the video-odor and video-only patterns, respectively.
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来源期刊
CiteScore
8.60
自引率
8.20%
发文量
479
审稿时长
6-12 weeks
期刊介绍: Rehabilitative and neural aspects of biomedical engineering, including functional electrical stimulation, acoustic dynamics, human performance measurement and analysis, nerve stimulation, electromyography, motor control and stimulation; and hardware and software applications for rehabilitation engineering and assistive devices.
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