从前馈节奏到反馈节奏的表象转变,反映了自然视觉中的现象整合

Lixiang Chen, Radoslaw Cichy, Daniel Kaiser
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摘要

大脑如何将复杂而动态的视觉输入整合为现象上无缝的感知?之前的研究结果表明,当视觉输入在空间和时间上被连贯地组织起来时,它们在与反馈相关的阿尔法节律中的编码强度更高,而在与前馈相关的伽马节律中的编码强度较低。在这里,我们测试了这种从前馈节奏到反馈节奏的表征转变是否与连贯性的现象体验有关。在一项脑电图研究中,我们通过在视觉半场同步或非同步地(片段之间有延迟)呈现同一视频中的两个片段来操纵时空一致性的程度。我们询问受试者他们认为刺激是连贯的还是不连贯的。当刺激出现在感知阈值时(即同一刺激被判断为连贯的次数为 50%),感知与刺激编码在α和γ节奏上存在共变:当刺激被认为是连贯的时候,它们在阿尔法活动中表现出来;当刺激被认为是不连贯的时候,它们在伽马活动中表现出来。因此,同一视觉输入被认为是连贯的还是不连贯的,取决于反馈相关的阿尔法节奏和前馈相关的伽玛节奏之间的表征转换。
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Representational shifts from feedforward to feedback rhythms index phenomenological integration in naturalistic vision
How does the brain integrate complex and dynamic visual inputs into phenomenologically seamless percepts? Previous results demonstrate that when visual inputs are organized coherently across space and time, they are more strongly encoded in feedback-related alpha rhythms, and less strongly in feedforward-related gamma rhythms. Here, we tested whether this representational shift from feedforward to feedback rhythms is linked to the phenomenological experience of coherence. In an EEG study, we manipulated the degree of spatiotemporal coherence by presenting two segments from the same video across visual hemifields, either synchronously or asynchronously (with a delay between segments). We asked participants whether they perceived the stimulus as coherent or incoherent. When stimuli were presented at the perceptual threshold (i.e., when the same stimulus was judged as coherent 50% of times), perception co-varied with stimulus coding across alpha and gamma rhythms: When stimuli were perceived as coherent, they were represented in alpha activity; when stimuli were perceived as incoherent, they were represented in gamma activity. Whether the same visual input is perceived as coherent or incoherent thus depends on representational shifts between feedback-related alpha and feedforward-related gamma rhythms.
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