人脑会在不同的时间进程中处理违反一般颜色或深度知识的情况。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Xiaoyu Tang , Shilong Yu , Shigeko Takahashi , Jiajia Yang , Yoshimichi Ejima , Yulin Gao , Qiong Wu , Jinglong Wu
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引用次数: 0

摘要

利用事件相关电位(ERPs)的高时间分辨率,我们比较了处理不一致颜色和三维深度信息的时间过程。我们要求受试者判断食物的颜色(颜色条件)或三维结构(三维深度条件)与他们之前的知识和经验是一致还是不一致。行为结果显示,三维深度一致条件下的反应时间比颜色一致条件下的反应时间慢。三维深度不一致条件下的反应时间比颜色不一致条件下的反应时间慢。ERP结果显示,与同色刺激相比,不一致颜色刺激在前中央区诱发了更大的N270、更大的P300和更小的N400成分。与一致的三维深度刺激相比,不一致的三维深度刺激在枕叶区诱发了较小的 N1,在顶叶-枕叶区诱发了较大的 P300 和较小的 N400。时频分析发现,与颜色一致的刺激相比,不一致的颜色刺激在前中央区诱发了较大的θ波段(360-580 ms)激活。与一致的三维深度刺激相比,不一致的三维深度刺激在顶叶区诱发了更大的α和β波段(240-350 毫秒)激活。我们的研究结果表明,人脑会在不同的时间过程中处理违反一般颜色或深度知识的情况。我们推测,深度知觉冲突主要是通过视觉处理解决问题,而颜色知觉冲突主要是通过语义违规解决问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The human brain deals with violating general color or depth knowledge in different time courses

Utilizing the high temporal resolution of event-related potentials (ERPs), we compared the time course of processing incongruent color versus 3D-depth information. Participants were asked to judge whether the food color (color condition) or 3D structure (3D-depth condition) was congruent or incongruent with their previous knowledge and experience. The behavioral results showed that the reaction times in the congruent 3D-depth condition were slower than those in the congruent color condition. The reaction times in the incongruent 3D-depth condition were slower than those in the incongruent color condition. The ERP results showed that incongruent color stimuli induced a larger N270, larger P300, and smaller N400 components in the fronto-central region than the congruent color stimuli. Incongruent 3D-depth stimuli induced a smaller N1 in the occipital region, larger P300 and smaller N400 in the parietal-occipital region than congruent 3D-depth stimuli. The time–frequency analysis found that incongruent color stimuli induced a larger theta band (360–580 ms) activation in the fronto-central region than congruent color stimuli. Incongruent 3D-depth stimuli induced larger alpha and beta bands (240–350 ms) activation in the parietal region than congruent 3D-depth stimuli. Our results suggest that the human brain deals with violating general color or depth knowledge in different time courses. We speculate that the depth perception conflict was dominated by solving the problem with visual processing, whereas the color perception conflict was dominated by solving the problem with semantic violation.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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