基于脑电信号数据的嗅觉情感计算

2021 IEEE International Conference on Progress in Informatics and Computing (PIC) Pub Date : 2021-12-17 DOI:10.1109/PIC53636.2021.9687068

Weihui Dai, Xinyue Li, Ziqing Xia, Jintian Zhou, Lijuan Song, H. Mao, Yan Kang

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引用次数: 0

摘要

众所周知，嗅觉对人的情绪有重要的影响，因此嗅觉效应已广泛应用于心理调节和临床治疗。与其他感官不同，嗅觉是通过嗅觉刺激分子作用于人的神经系统，从而引发心理效应，这种效应很难准确描述和测量。这使得常用的方法很难适用于嗅觉情感计算。本文通过分析嗅觉诱发人类情绪的神经机制，专门设计脑电图实验，获取嗅觉刺激的神经活动数据，并将神经特征数据与PAD情绪空间自述得分的聚类特征进行比较。为此，提出了基于脑电信号数据提取特征参数的LS-SVR估计器用于嗅觉情感计算。它比自我报告的数据表现出更好的区分性能和潜在可靠性，从而为这一问题提供了启发性的探索。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Olfactory Affective Computation Based on EEG Signal Data

It is well known that the sense of smell has significant impacts on human moods, therefore olfactory effects have been widely applied to psychological adjustment as well as clinical treatment. Unlike other senses, smell works through the molecules of olfactory stimuli acting on the human nervous system to elicit psychological effects, which is difficult to be accurately described and measured. This makes the commonly used methods hardly applicable to olfactory affective computation. Through analysis of the neural mechanism of human emotions evoked by olfactory sense, this paper specifically designed an EEG experiment to obtain the neural activity data of olfactory stimuli, and compares the clustering characteristics of neural feature data with self-reported scores in PAD emotional space. Thereout, the LS-SVR estimator based on the feature parameters extracted from EEG signal data is proposed for olfactory affective computation. It shows better distinguishing performance and potential reliability than self-reported data, and thus provides an enlightening exploration of this issue.

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2021 IEEE International Conference on Progress in Informatics and Computing (PIC)

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