人脸和物体感知的电生理相关性:二维实验室和虚拟现实条件下的对比分析。

Psychophysiology Pub Date : 2024-05-01 Epub Date: 2024-01-14 DOI:10.1111/psyp.14519
Merle Sagehorn, Marike Johnsdorf, Joanna Kisker, Thomas Gruber, Benjamin Schöne
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引用次数: 0

摘要

人脸感知是一种特殊的视觉过程,具有内在的社会意义。反映这一复杂认知过程的神经机制是在空间复杂、情感丰富的环境中进化而来的。之前利用虚拟现实技术将已建立的人脸感知范式转移到现实条件下的研究表明,通常在实验室中观察到的人脸敏感神经关联的功能特性在原始模式之外会减弱。本研究以这些结果为基础,比较了在传统实验室(PC)和 VR 现实条件下对人和物体的感知。按照既定的范例,PC 和 VR 模式都以人和汽车的图像以及标准对照图像为特征。为了研究逼真人脸处理的各个阶段,我们对模式内和模式间的反应时间、典型的人脸敏感 N170 分量以及相关的后续分量(L1、L2;反应前、反应后)进行了分析。对反应时间和分量潜伏期进行的模式间比较显示,在现实条件下,处理速度普遍较快。然而,获得的 N170 延迟和振幅差异表明,在这一早期阶段,现实条件下的分辨能力有所下降。这些发现表明,在实验室中通常观察到的效应是基于显示器的演示所特有的。对后期和反应锁定成分的分析表明,在现实条件下感知刺激时,会采用特定的神经机制进行识别和评估,这反映在对超出基本感知特征的人脸和物体的反应中存在明显的振幅差异。相反,在常规实验室条件下观看刺激物图片时,这些结果并不能证明存在类似的刺激物特定知觉处理途径。
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Electrophysiological correlates of face and object perception: A comparative analysis of 2D laboratory and virtual reality conditions.

Human face perception is a specialized visual process with inherent social significance. The neural mechanisms reflecting this intricate cognitive process have evolved in spatially complex and emotionally rich environments. Previous research using VR to transfer an established face perception paradigm to realistic conditions has shown that the functional properties of face-sensitive neural correlates typically observed in the laboratory are attenuated outside the original modality. The present study builds on these results by comparing the perception of persons and objects under conventional laboratory (PC) and realistic conditions in VR. Adhering to established paradigms, the PC- and VR modalities both featured images of persons and cars alongside standard control images. To investigate the individual stages of realistic face processing, response times, the typical face-sensitive N170 component, and relevant subsequent components (L1, L2; pre-, post-response) were analyzed within and between modalities. The between-modality comparison of response times and component latencies revealed generally faster processing under realistic conditions. However, the obtained N170 latency and amplitude differences showed reduced discriminative capacity under realistic conditions during this early stage. These findings suggest that the effects commonly observed in the lab are specific to monitor-based presentations. Analyses of later and response-locked components showed specific neural mechanisms for identification and evaluation are employed when perceiving the stimuli under realistic conditions, reflected in discernible amplitude differences in response to faces and objects beyond the basic perceptual features. Conversely, the results do not provide evidence for comparable stimulus-specific perceptual processing pathways when viewing pictures of the stimuli under conventional laboratory conditions.

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