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Cohn, Neil, et al. "(Pea)nuts and bolts of visual narrative: Structure and meaning in sequential image comprehension." Cognitive Psychology 65. (2012): 1–38. Added by: joachim (8/21/13, 10:24 PM) |
Resource type: Journal Article Language: en: English Peer reviewed DOI: 10.1016/j.cogpsych.2012.01.003 BibTeX citation key: Cohn2012a Email resource to friend View all bibliographic details |
Categories: General Keywords: "Peanuts", Cognition, Comic strip, Empirical research, Schulz. Charles M., Sequentiality, USA Creators: Cohn, Holcomb, Jackendoff, Kuperberg, Paczynski Collection: Cognitive Psychology |
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Attachments | URLs http://www.visuall ... Pea)nuts&bolts.pdf |
Abstract |
Just as syntax differentiates coherent sentences from scrambled word strings, the comprehension of sequential images must also use a cognitive system to distinguish coherent narrative sequences from random strings of images. We conducted experiments analogous to two classic studies of language processing to examine the contributions of narrative structure and semantic relatedness to processing sequential images. We compared four types of comic strips: (1) Normal sequences with both structure and meaning, (2) Semantic Only sequences (in which the panels were related to a common semantic theme, but had no narrative structure), (3) Structural Only sequences (narrative structure but no semantic relatedness), and (4) Scrambled sequences of randomly-ordered panels. In Experiment 1, participants monitored for target panels in sequences presented panel-by-panel. Reaction times were slowest to panels in Scrambled sequences, intermediate in both Structural Only and Semantic Only sequences, and fastest in Normal sequences. This suggests that both semantic relatedness and narrative structure offer advantages to processing. Experiment 2 measured ERPs to all panels across the whole sequence. The N300/N400 was largest to panels in both the Scrambled and Structural Only sequences, intermediate in Semantic Only sequences and smallest in the Normal sequences. This implies that a combination of narrative structure and semantic relatedness can facilitate semantic processing of upcoming panels (as reflected by the N300/N400). Also, panels in the Scrambled sequences evoked a larger left-lateralized anterior negativity than panels in the Structural Only sequences. This localized effect was distinct from the N300/N400, and appeared despite the fact that these two sequence types were matched on local semantic relatedness between individual panels. These findings suggest that sequential image comprehension uses a narrative structure that may be independent of semantic relatedness. Altogether, we argue that the comprehension of visual narrative is guided by an interaction between structure and meaning.
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