一种用于优先处理突出的未被注意刺激的振荡机制。

An oscillatory mechanism for prioritizing salient unattended stimuli.

机构信息

Donders Institute for Brain, Cognition and Behaviour, Radboud University Nijmegen, Nijmegen, The Netherlands.

出版信息

Trends Cogn Sci. 2012 Apr;16(4):200-6. doi: 10.1016/j.tics.2012.03.002. Epub 2012 Mar 19.

DOI:10.1016/j.tics.2012.03.002

Abstract

To survive in a complex world, it is important that unattended, but salient, input can still draw one's attention. In this article, we suggest that posterior alpha oscillations (8-13Hz) provide a mechanism for prioritizing and ordering unattended visual input according to 'relevance'. Gamma oscillations (30-100Hz) that are phase-locked to the alpha oscillations keep competing unattended representations apart in time, thus creating a sequence of perceptual cycles. As inhibition gradually lowers within an alpha cycle, the ordered sequence of competing input is activated, producing a temporal phase code for saliency. The proposed mechanism is based on recent experiments indicating that the phase of alpha activity modulates perception and that alpha oscillations are produced by periodic pulses of inhibition.

摘要

为了在复杂的世界中生存，即使是无人关注但却显著的输入也能吸引注意力是非常重要的。在本文中，我们提出，后alpha 振荡（8-13Hz）为根据“相关性”对无人关注的视觉输入进行优先级排序和组织提供了一种机制。与 alpha 振荡锁相的伽马振荡（30-100Hz）在时间上使相互竞争的无人表示分开，从而创建了一个感知循环序列。随着 alpha 周期内的抑制逐渐降低，有序的竞争输入序列被激活，为显著性产生了时间相位码。所提出的机制基于最近的实验表明，alpha 活动的相位调节感知，并且 alpha 振荡是由周期性的抑制脉冲产生的。

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一种用于优先处理突出的未被注意刺激的振荡机制。

An oscillatory mechanism for prioritizing salient unattended stimuli.

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