Ecological decoding of visual aesthetic preference with oscillatory electroencephalogram features-A mini-review.

IF 1.5 Q3 ERGONOMICS
Frontiers in neuroergonomics Pub Date : 2024-02-21 eCollection Date: 2024-01-01 DOI:10.3389/fnrgo.2024.1341790
Marc Welter, Fabien Lotte
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Abstract

In today's digital information age, human exposure to visual artifacts has reached an unprecedented quasi-omnipresence. Some of these cultural artifacts are elevated to the status of artworks which indicates a special appreciation of these objects. For many persons, the perception of such artworks coincides with aesthetic experiences (AE) that can positively affect health and wellbeing. AEs are composed of complex cognitive and affective mental and physiological states. More profound scientific understanding of the neural dynamics behind AEs would allow the development of passive Brain-Computer-Interfaces (BCI) that offer personalized art presentation to improve AE without the necessity of explicit user feedback. However, previous empirical research in visual neuroaesthetics predominantly investigated functional Magnetic Resonance Imaging and Event-Related-Potentials correlates of AE in unnaturalistic laboratory conditions which might not be the best features for practical neuroaesthetic BCIs. Furthermore, AE has, until recently, largely been framed as the experience of beauty or pleasantness. Yet, these concepts do not encompass all types of AE. Thus, the scope of these concepts is too narrow to allow personalized and optimal art experience across individuals and cultures. This narrative mini-review summarizes the state-of-the-art in oscillatory Electroencephalography (EEG) based visual neuroaesthetics and paints a road map toward the development of ecologically valid neuroaesthetic passive BCI systems that could optimize AEs, as well as their beneficial consequences. We detail reported oscillatory EEG correlates of AEs, as well as machine learning approaches to classify AE. We also highlight current limitations in neuroaesthetics and suggest future directions to improve EEG decoding of AE.

利用振荡脑电图特征对视觉审美偏好进行生态解码--微型综述。
在当今的数字信息时代,人类对视觉文物的接触达到了前所未有的准普遍性。其中一些文化艺术品被提升到了艺术品的地位,这表明人们对这些物品有着特殊的鉴赏力。对许多人来说,对这些艺术品的感知与审美体验(AE)相吻合,而审美体验会对健康和幸福产生积极影响。审美体验由复杂的认知和情感心理及生理状态组成。对审美体验背后的神经动态有更深入的科学理解,就能开发出被动式脑机接口(BCI),提供个性化的艺术展示,改善审美体验,而无需明确的用户反馈。然而,以前的视觉神经美学实证研究主要是在非自然的实验室条件下研究 AE 的功能磁共振成像和事件相关电位相关性,这可能不是实用神经美学 BCI 的最佳特征。此外,直到最近,AE 在很大程度上一直被定义为美的体验或愉悦的体验。然而,这些概念并不包括所有类型的 AE。因此,这些概念的范围过于狭窄,无法为不同个体和文化提供个性化的最佳艺术体验。这篇叙事性微型综述总结了基于振荡脑电图(EEG)的视觉神经美学的最新进展,并描绘了开发生态学上有效的神经美学被动生物识别(BCI)系统的路线图,该系统可优化 AE 及其有益后果。我们详细介绍了已报道的 AE 的振荡脑电图相关性,以及对 AE 进行分类的机器学习方法。我们还强调了神经美学目前存在的局限性,并提出了改进 AE 脑电图解码的未来方向。
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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