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顿悟式组块破解的时间进程:ERP研究
引用本文:张忠炉,邢强,雷怡,李红. 顿悟式组块破解的时间进程:ERP研究[J]. 心理科学, 2019, 0(5): 1026-1032
作者姓名:张忠炉  邢强  雷怡  李红
作者单位:1. 广州大学;2. 广州大学心理学系;3. 深圳大学;4. 深圳大学心理与社会学院;
摘    要:本研究旨在探讨顿悟式组块破解的信息加工机制及神经动态变化。被试完成汉字拆解任务,也即从一个源汉字中移动部件从而得到有效汉字。研究操纵部件之间在空间交错背景下的类别关系:同类(移动部件和剩余部件都是汉字)和异类(移动部件是笔画,剩余部件是汉字)。与此同时记录事件相关电位变化。结果显示,同类条件比异类条件引发了更大的N2波动和减小的LPC波动。早期的N2效应可能提示了组块破解过程中的识别困难,而晚期的LPC效应可能提示了组块破解过程中的知觉转换困难。

关 键 词:顿悟式组块破解  空间交错  知觉干扰  汉字  事件相关电位  
收稿时间:2018-10-20
修稿时间:2019-02-12

The time course of chunk decomposition: an ERP study
Yi LEI Hong LI. The time course of chunk decomposition: an ERP study[J]. Psychological Science, 2019, 0(5): 1026-1032
Authors:Yi LEI Hong LI
Abstract:Chunk decomposition is a critical mechanism of insight problem solving and creative thinking. It refers to decomposing a holistic perceptual chunk into its components in order for creating new products or reorganization. Previous studies mainly investigated the neuro-cognitive mechanism of chunk decomposition related to the element-type-based chunk tightness, less is known on the neural correlates of insightful chunk decomposition associated with chunk tightness based on spatial intersecting relationship.The current study aimed to investigate the cognitive processing mechanism and the neural dynamics of insightful chunk decomposition by using the event-related potentials (ERPs) technique of high temporal resolution in a Chinese character decomposition task. Twenty-four volunteers (11 female; 20.29 ± 1.78) participated in this study. All of them were native Chinese, right-handed, and had normal and correct-to-normal vision. They reported no history of brain damage or psychiatry. Participants were asked to complete a character decomposition task in which they removed strokes or a character from a source character for getting a valid character. Two conditions were manipulated and compared according to the category relationship between the probe (the to-be-removed part) and the target (the left part). In the condition of same category, the to-be-removed part and the left part are both characters. In the condition of different categories, the to-be-removed part are strokes and the left part is a character. More critically, to ensure character decomposition occurs in an insightful way, we kept the to-be-removed part (strokes or a character) and the left part (a character) in a spatially intersecting relationship in the to-be-decomposed chunk. Meanwhile, ERPs were recorded after the onset of the source character when chunk decomposition occurs. We hypothesized that the condition of same category (vs. different categories) would induce greater perceptual conflict in the two stages of insightful chunk decomposition where the to-be-removed part (a probe) and the left part (a target) are spatially intersecting with each other in the source character. Specifically, in the stage of probe identification, same category (vs. different categories) would elicit greater perceptual conflict due to the distraction of the left part, which was reflected by greater N2 deflection. In the stage of perceptual transformation, same category (vs. different categories) would elicit greater perceptual conflict and make transformation more difficult, which was reflected by decreased LPC. The results supported the hypothesis by showing that the condition of same category elicited greater N2 amplitude during the time window of 250-400 ms and decreased LPC amplitude during the time window of 550-1000 ms, compared with the condition of different categories. Consistent with the EEG data, it was shown that chunk decomposition required significantly longer response times in the same category condition than in the condition of different categories.It is concluded that chunk decomposition might contribute to insight problem solving by breaking difficulty in two phases. In early stage of insightful chunk decomposition, the difficulty of probe identification might lead to perceptual conflict, eliciting greater N2 amplitude. In the later stage of insightful chunk decomposition, the difficulty of perceptual transformation might cause memory load, as reflected by decreased LPC amplitude. Ultimately, both difficulty in identification phase and transformation phase lead to longer reaction times in behavioral performances.The current study aimed to investigate the information processing mechanism and the neural dynamics of insightful chunk decomposition by using the event-related potentials (ERPs) technique of high temporal resolution in a Chinese character decomposition task. Twenty-four volunteers (11 female; 20.29 ± 1.78) participated in this study. All of them were native Chinese, right-handed, and had normal and correct-to-normal vision. They reported no history of brain damage or psychiatry. Participants were asked to complete a character decomposition task in which they removed strokes or a character from a source character for getting a valid character. Two conditions were manipulated and compared according to the category relationship between the probe (the to-be-removed part) and the target (the left part): in the condition of same category, the to-be-removed part and the left part are both characters; in the condition of different categories, the to-be-removed part are strokes and the left part is a character. More critically, to ensure character decomposition occurs in an insightful way, we kept the to-be-removed part (strokes or a character) and the left part (a character) in a spatially crossed relation in the to-be-decomposed chunk. Meanwhile, ERPs were recorded after the onset of the source character when chunk decomposition occurs. We hypothesized that the condition of same category (vs. different categories) would induce greater perceptual conflict in the two stages of insightful chunk decomposition where the probe and target are spatially intersecting with each other in the source character. Specifically, in the stage of probe identification, same category (vs. different categories) would elicit greater perceptual conflict due to the distraction of the left part, which was reflected by greater N2 deflection. In the stage of perceptual transformation, same category (vs. different categories) would elicit greater perceptual conflict and make transformation more difficult, which was reflected by decreased LPC. The results supported the hypothesis by showing that the condition of same category elicited greater N2 amplitude during the time window of 250-400ms and decreased LPC amplitude during the time window of 550-1000 ms, compared with the condition of different categories. Converging with the EEG data, it was shown that chunk decomposition required significantly longer response times in the same category condition than in the different categories condition.it is concluded that chunk decomposition might contribute to insight problem solving by breaking difficulties in two phases: in early stage of insightful chunk decomposition, the difficulty of probe identification might lead to perceptual conflict, eliciting greater N2 amplitude; in the later stage of insightful chunk decomposition, the difficulty of perceptual transformation might cause memory load, as reflected by decreased LPC amplitude. Ultimately, the two stages of difficulties lead to longer reaction times in behavioral performances.
Keywords:insightful chunk decomposition   spatial intersecting   perceptual interference   Chinese character   ERPs  
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