Dissociable event-related potential modulations of intrinsic and extrinsic factors in temporal integration.

Psychophysiology Pub Date : 2024-04-01 Epub Date: 2023-10-23 DOI:10.1111/psyp.14468
Elkan G Akyürek, Gülşen Balta
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Abstract

We investigated visual temporal integration, by which multiple stimuli appearing in rapid succession are perceived as a single event. Temporal integration not only depends intrinsically on the passage of time but also, extrinsically, on the number and distribution of successive stimuli that are presented across that time interval. Here, we used a missing element task to investigate intrinsic and extrinsic factors in temporal integration, by manipulating stimulus duration and number, respectively. We found that both contributed interactively to integration performance and that varying the information rate over time did not further modulate this pattern. Intrinsic and extrinsic factors had dissociable effects on the N1, N2, N2pc, and P3 components of the event-related potential, implicating unique contributions to perceptual discrimination, spatio-temporal grouping, attention, and response decision-making. Stimulus number-induced effects on the event-related potential also generally arose later than those of stimulus duration. The latter already modulated the amplitude of the N1 and the early phase of the N2pc, while the former did not. The collective results suggest that while both intrinsic and extrinsic factors drive temporal integration, they do so in different ways. This difference during integration may eventually be reflected in the way in which we perceive longer, episodic events.

时间整合中内在和外在因素的可分离事件相关电位调节。
我们研究了视觉-时间整合,通过这种整合,快速连续出现的多个刺激被视为一个单一事件。时间整合不仅内在地取决于时间的流逝,而且在外在地取决于在该时间间隔内出现的连续刺激的数量和分布。在这里,我们使用了一个缺失元素任务,通过分别操纵刺激持续时间和数量来研究时间整合中的内在和外在因素。我们发现两者都对集成性能有交互作用,并且随着时间的推移改变信息速率不会进一步调节这种模式。内在和外在因素对事件相关电位的N1、N2、N2pc和P3成分具有可分离的影响,暗示了对感知辨别、时空分组、注意力和反应决策的独特贡献。刺激次数对事件相关电位的影响通常也晚于刺激持续时间。后者已经调制了N1的振幅和N2pc的早期相位,而前者没有。综合结果表明,虽然内在和外在因素都驱动着时间整合,但它们的驱动方式不同。整合过程中的这种差异最终可能会反映在我们感知更长的偶发事件的方式上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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