Hommel Bernhard, Kessler Klaus, Schmitz Frank, Gross Joachim, Akyürek Elkan, Shapiro Kimron, Schnitzler Alfons
Department of Psychology, Cognitive Psychology Unit, Leiden University, Postbus 9555, 2300, Leiden, The Netherlands.
Psychol Res. 2006 Nov;70(6):425-35. doi: 10.1007/s00426-005-0009-3. Epub 2005 Oct 20.
When people monitor a visual stream of rapidly presented stimuli for two targets (T1 and T2), they often miss T2 if it falls into a time window of about half a second after T1 onset-the attentional blink (AB). We provide an overview of recent neuroscientific studies devoted to analyze the neural processes underlying the AB and their temporal dynamics. The available evidence points to an attentional network involving temporal, right-parietal and frontal cortex, and suggests that the components of this neural network interact by means of synchronization and stimulus-induced desynchronization in the beta frequency range. We set up a neurocognitive scenario describing how the AB might emerge and why it depends on the presence of masks and the other event(s) the targets are embedded in. The scenario supports the idea that the AB arises from "biased competition", with the top-down bias being generated by parietal-frontal interactions and the competition taking place between stimulus codes in temporal cortex.
当人们在快速呈现的视觉刺激流中监测两个目标(T1和T2)时,如果T2出现在T1开始后的大约半秒时间窗口内,他们常常会错过T2,即注意瞬脱(AB)。我们概述了最近致力于分析AB背后神经过程及其时间动态的神经科学研究。现有证据指向一个涉及颞叶、右顶叶和额叶皮质的注意网络,并表明该神经网络的组成部分通过β频率范围内的同步和刺激诱发去同步进行相互作用。我们构建了一个神经认知场景,描述AB可能如何出现以及为何它取决于掩蔽的存在和目标所嵌入的其他事件。该场景支持这样一种观点,即AB源于“偏向竞争”,自上而下的偏向由顶叶 - 额叶相互作用产生,竞争在颞叶皮质的刺激编码之间发生。