Dynamic signatures of the Eureka effect: an EEG study

Yiqing Lu, W. Singer
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引用次数: 1

Abstract

The Eureka effect refers to the common experience of suddenly solving a problem. Here we study this effect in a pattern recognition paradigm that requires the segmentation of complex scenes and recognition of objects on the basis of Gestalt rules and prior knowledge. In the experiments both sensory evidence and prior knowledge were manipulated in order to obtain trials that do or do not converge towards a perceptual solution. Subjects had to detect objects in blurred scenes and signal recognition with manual responses. Neural dynamics were analyzed with high-density Electroencephalography (EEG) recordings. The results show significant changes of neural dynamics with respect to spectral distribution, coherence, phase locking, and fractal dimensionality. The Eureka effect was associated with increased coherence of oscillations in the alpha and theta band over widely distributed regions of the cortical mantle predominantly in the right hemisphere. This increase in coherence was associated with a decrease of beta band activity over parietal and central regions, and with a decrease of alpha power over frontal and occipital areas. In addition, there was a lateralized reduction of fractal dimensionality for activity recorded from the right hemisphere. These results suggest that the transition towards the solution of a perceptual task is mainly associated with a change of network dynamics in the right hemisphere that is characterized by enhanced coherence and reduced complexity. We propose that the Eureka effect requires cooperation of cortical regions involved in working memory, creative thinking, and the control of attention.
尤里卡效应的动态特征:一项脑电图研究
尤里卡效应指的是突然解决一个问题的共同经历。本文研究了一种基于格式塔规则和先验知识的复杂场景分割和对象识别的模式识别范式。在实验中,感官证据和先验知识都被操纵,以获得向感知解决方案收敛或不收敛的试验。受试者必须在模糊的场景中检测物体,并通过手动反应识别信号。用高密度脑电图(EEG)记录分析神经动力学。结果表明,神经动力学在光谱分布、相干性、锁相性和分形维数方面发生了显著变化。尤里卡效应与在皮层地幔广泛分布的区域(主要在右半球)上α和θ波段振荡的相干性增加有关。这种一致性的增加与顶叶和中央区域的β波段活动减少以及额叶和枕叶区域的α能力下降有关。此外,从右半球记录的活动的分形维数有偏侧降低。这些结果表明,向感知任务解决方案的过渡主要与右半球网络动态的变化有关,其特征是增强一致性和降低复杂性。我们提出,尤里卡效应需要涉及工作记忆、创造性思维和注意力控制的皮质区域的合作。
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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