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안지성,조희숙 한국유아교육학회 2014 유아교육연구 Vol.34 No.2
본 연구는 Genette(1972/1992)의 서사담론을 참조체계로 포스트모던 그림책의 시간성이 글과 그림과의 관계 속에서 어떤 장치로 내재되어 있는지 살펴봄으로써 그림책 속 시간성이 어떻게 독자들을 놀이로 유도할 수 있는지 살펴보았다. 이를 위해 포스트모던 그림책 9권을 선정한 후 참조체계를 이용하여 각 그림책의 시간성이 놀이를 유도하는 양상을 분석하고, 포스트모던 그림책 속 시간성이 지닌 교육적 함의를 도출하였다. 연구 결과, 그림책을 생산하는 주체의 권위가 사라지는 것은 놀람과 즐거움을 주고, 스토리의 순서가 뒤엉키고 예상이 뒤집히는 관습적인 서사 구조의 파괴는 웃음을 유발시키고 있었다. 또 그림책 자체가 지닌 물질성은 몸을 직접 움직여 텍스트에 연루되는 반응과 함께 과거의 놀이 경험들을 응축시켜 새로운 놀이를 탄생시키며, 관습적인 서사구조의 파괴는 독자 스스로 서술 순서를 구성해보는 즐거움을 제공할 수 있었다. 끝으로 과거와 현재 사이의 경계가 허물어지는 텍스트 간의 연결성은 상호텍스트적 참조물을 찾는 놀이를 촉발시키고 있었다. 결국, 포스트모던 그림책 속 시간은 독자들이 제 2의 독자로써 텍스트에 연루되도록 만드는 통로가 될 수 있을 것이다. Postmodern picture books are a specific genre of picturebook in that they depart from the traditional linear-narrative format. This is especially so in the matter of time for postmodern picturebooks often depict the narrative in a mult-idimentional, non-chronological order, interspersing objective "real" time with subjective time and the like. Referencing Gerard Genette`s temporal analyses of narrative, this study explores the features of time as an inducer to play. When time is depicted in many dimensions without overt notice to the reader, it becomes a devise exposing hidden meaning and enticing readers into cognitive, interactive play though which they construct meaning. The young reader`s creative involvement may arouse laughter and pleasure through subversion, satisfaction or rhythm as the child becomes immersed in creating and solving puzzles and riddles. Ultimately and delightfully, for young readers, the plurality of multi-dimensional time in postmodern picturebooks allows them to actively participate in and with the text so deeply that they soar to the status of second author.
Interactivity of Neural Representations for Perceiving Shared Social Memory
안지성,김혜영,박종현,한상훈 한국감성과학회 2018 감성과학 Vol.21 No.3
Although the concept of “common sense” is often taken for granted, judging whether behavior or knowledge is common sense requires a complex series of mental processes. Additionally, different perceptions of common sense can lead to social conflicts. Thus, it is important to understand how we perceive common sense and make relevant judgments. The present study investigated the dynamics of neural representations underlying judgments of what common sense is. During functional magnetic resonance imaging, participants indicated the extent to which they thought that a given sentence corresponded to common sense under the given perspective. We incorporated two different decision contexts involving different cultural perspectives to account for social variability of the judgments, an important feature of common sense judgments apart from logical true/false judgments. Our findings demonstrated that common sense versus non-common sense perceptions involve the amygdala and a brain network for episodic memory recollection, including the hippocampus, angular gyrus, posterior cingulate cortex, and ventromedial prefrontal cortex, suggesting integrated affective, mnemonic, and social functioning in common sense processing. Furthermore, functional connectivity multivariate pattern analysis revealed that interactivity among the amygdala, angular gyrus, and parahippocampal cortex reflected representational features of common sense perception and not those of non-common sense perception. Our study demonstrated that the social memory network is exclusively involved in processing common sense and not non-common sense. These results suggest that intergroup exclusion and misunderstanding can be reduced by experiencing and encoding long-term social memories about behavioral norms and knowledge that act as common sense of the outgroup.
Voxel-wise Mapping of Functional Magnetic Resonance Imaging in Impression Formation
안지성,나윤진,고인환,한상훈 한국감성과학회 2022 감성과학 Vol.25 No.4
Social interactions often involve encountering inconsistent information about social others. We conducted a functional magnetic resonance imaging (fMRI) study to comprehensively investigate voxel-wise temporal dynamics showing how impressions are anchored and/or adjusted in response to inconsistent social information. The participants performed a social impression task inside an fMRI scanner in which they were shown a male face, together with a series of four adjectives that described the depicted person's personality traits, successively presented beneath the image of the face. Participants were asked to rate their impressions of the person at the end of each trial on a scale of 1 to 8 (where 1 is most negative and 8 is most positive). We established two hypothetical models that represented two temporal patterns of voxel activity: Model 1 featured decreasing patterns of activity towards the end of each trial, anchoring impressions to initially presented information, and Model 2 showed increasing patterns of activity toward the end of each trial, where impressions were being adjusted using new and inconsistent information. Our data-driven model fitting analyses showed that the temporal activity patterns of voxels within the ventral anterior cingulate cortex, medial orbitofrontal cortex, posterior cingulate cortex, amygdala, and fusiform gyrus fit Model 1 (i.e., they were more involved in anchoring first impressions) better than they did Model 2 (i.e., showing impression adjustment). Conversely, voxel-wise neural activity within dorsal ACC and lateral OFC fit Model 2 better than it did Model 1, as it was more likely to be involved in processing new, inconsistent information and adjusting impressions in response. Our novel approach to model fitting analysis replicated previous impression-related neuroscientific findings, furthering the understanding of neural and temporal dynamics of impression processing, particularly with reference to functionally segmenting each region of interest based on relative involvement in impression anchoring as opposed to adjustment.