Recursive structures modulate the electrophysiological correlates of visual perspective taking.

Abstract

An increasing number of studies have focused on the neural basis of complex mental inferences, which requires an understanding of the recursive nature of thought; however, the precise electrophysiological response to a recursive structure remains unclear. The present event-related potential (ERP) study investigated the recursive structure effect on the neural correlates of visual perspective taking by modifying a third-person visual perspective-taking task. Participants were required to determine how many dots in the presented scenes could be seen from the cued perspective, including the perspectives in the self, other, and recursive (one avatar's belief of another avatar) conditions. The ERP results showed that the N100 and P200 components specific to the recursive-perspective condition showed greater attentional allocation; the N200 component increased in the recursive condition and was related to the conflict process; and larger late slow waves were found in the other- and recursive-perspective conditions compared with those in the self-perspective condition, which reflected the decoupling mechanism. The results suggested that high-order perspective taking requires more attentional resources and conflict processing for further decoupling from the self-perspective.