Event-based encoding of biological motion and location in visual working memory
Autor: | Zaifeng Gao, Hong Ma, Quan Gu, Mowei Shen, Xueyi Wan, Xiqian Lu, Yang Guo |
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Rok vydání: | 2020 |
Předmět: |
Adult
Male Physiology Computer science Working memory Speech recognition Event based Motion Perception Experimental and Cognitive Psychology General Medicine Young Adult Memory Short-Term Neuropsychology and Physiological Psychology Space Perception Physiology (medical) Encoding (memory) Humans Attention Female General Psychology Biological motion |
Zdroj: | Quarterly Journal of Experimental Psychology. 73:1261-1277 |
ISSN: | 1747-0226 1747-0218 |
Popis: | We make use of discrete yet meaningful events to orient ourselves to the dynamic environment. Among these events, biological motion, referring to the movements of animate entities, is one of the most biologically salient. We usually encounter biological motions of multiple human beings taking place simultaneously at distinct locations. How we encode biological motions into visual working memory (VWM) to form a coherent experience of the external world and guide our social behaviour remains unclear. This study for the first time addressed the VWM encoding mechanism of biological motions and their corresponding locations. We tested an event-based encoding hypothesis for biological motion and location: When one element of an event is required to be memorised, the irrelevant element of an event will also be extracted into VWM. We presented participants with three biological motions at different locations and required them to memorise only the biological motions or their locations while ignoring the other dimension. We examined the event-based encoding by probing a distracting effect: If the event-based encoding took place, the change of irrelevant dimension in the probe would lead to a significant distraction and impair the performance of detecting target dimension. We found significant distracting effects, which lasted for 3 s but vanished at 6 s, regardless of the target dimension (biological motions vs. locations, Experiment 1) and the exposure time of memory array (1 s vs. 3 s, Experiment 2). These results together support an event-based encoding mechanism during VWM encoding of biological motions and their corresponding locations. |
Databáze: | OpenAIRE |
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