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解开知觉记忆之谜:滞后和适应映射到分离的皮质网络。

Untangling perceptual memory: hysteresis and adaptation map into separate cortical networks.

机构信息

Department of Neurophysiology, Max Planck Institute for Brain Research, 60528 Frankfurt am Main, Germany.

出版信息

Cereb Cortex. 2014 May;24(5):1152-64. doi: 10.1093/cercor/bhs396. Epub 2012 Dec 12.

Abstract

Perception is an active inferential process in which prior knowledge is combined with sensory input, the result of which determines the contents of awareness. Accordingly, previous experience is known to help the brain "decide" what to perceive. However, a critical aspect that has not been addressed is that previous experience can exert 2 opposing effects on perception: An attractive effect, sensitizing the brain to perceive the same again (hysteresis), or a repulsive effect, making it more likely to perceive something else (adaptation). We used functional magnetic resonance imaging and modeling to elucidate how the brain entertains these 2 opposing processes, and what determines the direction of such experience-dependent perceptual effects. We found that although affecting our perception concurrently, hysteresis and adaptation map into distinct cortical networks: a widespread network of higher-order visual and fronto-parietal areas was involved in perceptual stabilization, while adaptation was confined to early visual areas. This areal and hierarchical segregation may explain how the brain maintains the balance between exploiting redundancies and staying sensitive to new information. We provide a Bayesian model that accounts for the coexistence of hysteresis and adaptation by separating their causes into 2 distinct terms: Hysteresis alters the prior, whereas adaptation changes the sensory evidence (the likelihood function).

摘要

感知是一个主动的推理过程,其中先前的知识与感官输入相结合,其结果决定了意识的内容。因此,先前的经验被认为有助于大脑“决定”感知什么。然而,一个尚未解决的关键方面是,先前的经验可以对感知产生 2 种相反的影响:一种是有吸引力的影响,使大脑对再次感知到相同的事物变得敏感(滞后),或者是一种排斥性的影响,使大脑更有可能感知到其他事物(适应)。我们使用功能磁共振成像和建模来阐明大脑如何容纳这 2 种相反的过程,以及是什么决定了这种经验依赖性感知效应的方向。我们发现,尽管滞后和适应同时影响我们的感知,但它们映射到不同的皮质网络中:一个广泛的高级视觉和额顶叶区域网络参与了感知稳定,而适应则局限于早期视觉区域。这种区域和层次上的分离可能解释了大脑如何在利用冗余和对新信息保持敏感之间保持平衡。我们提供了一个贝叶斯模型,通过将滞后和适应的原因分为 2 个不同的术语来解释它们的共存:滞后改变了先验,而适应改变了感官证据(似然函数)。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b381/3977616/a240541126af/bhs39601.jpg

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