Instant Effects of Semantic Information on Visual Perception

Alexander Enge, Franziska Süß, Rasha Abdel Rahman
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Abstract

Does our perception of an object change once we discover what function it serves? We showed human participants (n = 48, 31 females and 17 males) pictures of unfamiliar objects either together with keywords matching their function, leading to semantically informed perception, or together with nonmatching keywords, resulting in uninformed perception. We measured event-related potentials to investigate at which stages in the visual processing hierarchy these two types of object perception differed from one another. We found that semantically informed compared with uninformed perception was associated with larger amplitudes in the N170 component (150-200 ms), reduced amplitudes in the N400 component (400-700 ms), and a late decrease in alpha/beta band power. When the same objects were presented once more without any information, the N400 and event-related power effects persisted, and we also observed enlarged amplitudes in the P1 component (100-150 ms) in response to objects for which semantically informed perception had taken place. Consistent with previous work, this suggests that obtaining semantic information about previously unfamiliar objects alters aspects of their lower-level visual perception (P1 component), higher-level visual perception (N170 component), and semantic processing (N400 component, event-related power). Our study is the first to show that such effects occur instantly after semantic information has been provided for the first time, without requiring extensive learning. SIGNIFICANCE STATEMENT There has been a long-standing debate about whether or not higher-level cognitive capacities, such as semantic knowledge, can influence lower-level perceptual processing in a top-down fashion. Here we could show, for the first time, that information about the function of previously unfamiliar objects immediately influences cortical processing within less than 200 ms. Of note, this influence does not require training or experience with the objects and related semantic information. Therefore, our study is the first to show effects of cognition on perception while ruling out the possibility that prior knowledge merely acts by preactivating or altering stored visual representations. Instead, this knowledge seems to alter perception online, thus providing a compelling case against the impenetrability of perception by cognition.
语义信息对视觉感知的即时效应
一旦我们发现了一个物体的功能,我们对它的感知会改变吗?我们向人类参与者(n = 48, 31名女性和17名男性)展示了不熟悉物体的图片,其中一种是与功能匹配的关键词一起出现,导致语义知情的感知,另一种是与不匹配的关键词一起出现,导致语义不知情的感知。我们测量了事件相关电位,以研究这两种类型的物体感知在视觉处理层次的哪个阶段彼此不同。我们发现,与不知情感知相比,语义知情感知与N170分量(150-200 ms)的振幅较大,N400分量(400-700 ms)的振幅减小以及α / β波段功率的后期下降有关。当在没有任何信息的情况下再次呈现相同的物体时,N400和事件相关的功率效应持续存在,我们还观察到P1分量的振幅(100-150 ms)在对语义信息感知的物体做出反应时增大。与之前的研究一致,这表明获取先前不熟悉的物体的语义信息会改变其低级视觉感知(P1分量)、高级视觉感知(N170分量)和语义处理(N400分量,事件相关功率)的各个方面。我们的研究首次表明,这种效果在第一次提供语义信息后立即发生,而不需要大量的学习。关于更高层次的认知能力,如语义知识,是否能够以自上而下的方式影响较低层次的感知加工,一直存在着长期的争论。在这里,我们可以首次证明,关于以前不熟悉的物体的功能的信息在不到200毫秒的时间内立即影响皮层的处理。值得注意的是,这种影响不需要对物体和相关语义信息进行训练或经验。因此,我们的研究首次展示了认知对感知的影响,同时排除了先验知识仅仅通过预先激活或改变存储的视觉表征来起作用的可能性。相反,这种知识似乎改变了在线感知,从而提供了一个令人信服的案例,反对认知无法穿透感知。
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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