Suppr超能文献

持续时间感知调节机制的三重分离:自上而下的注意力是内在的。

Triple dissociation of duration perception regulating mechanisms: Top-down attention is inherent.

作者信息

Lin Yong-Jun, Shimojo Shinsuke

机构信息

Computation and Neural Systems, Division of Biology, California Institute of Technology, Pasadena, California, United States of America.

出版信息

PLoS One. 2017 Aug 8;12(8):e0182639. doi: 10.1371/journal.pone.0182639. eCollection 2017.

Abstract

The brain constantly adjusts perceived duration based on the recent event history. One such lab phenomenon is subjective time expansion induced in an oddball paradigm ("oddball chronostasis"), where the duration of a distinct item (oddball) appears subjectively longer when embedded in a series of other repeated items (standards). Three hypotheses have been separately proposed but it remains unresolved which or all of them are true: 1) attention prolongs oddball duration, 2) repetition suppression reduces standards duration, and 3) accumulative temporal preparation (anticipation) expedites the perceived item onset so as to lengthen its duration. We thus conducted critical systematic experiments to dissociate the relative contribution of all hypotheses, by orthogonally manipulating sequences types (repeated, ordered, or random) and target serial positions. Participants' task was to judge whether a target lasts shorter or longer than its reference. The main finding was that a random item sequence still elicited significant chronostasis even though each item was odd. That is, simply being a target draws top-down attention and induces chronostasis. In Experiments 1 (digits) and 2 (orientations), top-down attention explained about half of the effect while saliency/adaptation explained the other half. Additionally, for non-repeated (ordered and random) sequence types, a target with later serial position still elicited stronger chronostasis, favoring a temporal preparation over a repetition suppression account. By contrast, in Experiment 3 (colors), top-down attention was likely the sole factor. Consequently, top-down attention is necessary and sometimes sufficient to explain oddball chronostasis; saliency/adaptation and temporal preparation are contingent factors. These critical boundary conditions revealed in our study serve as quantitative constraints for neural models of duration perception.

摘要

大脑会根据近期的事件历史不断调整对持续时间的感知。一种这样的实验室现象是在奇偶数范式(“奇偶数时间停滞”)中诱发的主观时间扩展,其中当一个独特的项目(奇数项)嵌入一系列其他重复项目(标准项)中时,其持续时间主观上会显得更长。已经分别提出了三种假设,但它们之中哪一个或全部是正确的仍未得到解决:1)注意力延长了奇数项的持续时间,2)重复抑制缩短了标准项的持续时间,3)累积性的时间准备(预期)加快了对项目开始的感知,从而延长其持续时间。因此,我们进行了关键的系统性实验,通过正交操纵序列类型(重复、有序或随机)和目标序列位置来区分所有假设的相对贡献。参与者的任务是判断一个目标的持续时间比其参考持续时间短还是长。主要发现是,即使每个项目都是奇数项,随机项目序列仍会引发显著的时间停滞。也就是说,仅仅作为一个目标就会吸引自上而下的注意力并诱发时间停滞。在实验1(数字)和实验2(方向)中,自上而下的注意力解释了大约一半的效应,而显著性/适应性解释了另一半。此外,对于非重复(有序和随机)序列类型,序列位置靠后的目标仍会引发更强的时间停滞,这支持了时间准备而非重复抑制的解释。相比之下,在实验3(颜色)中,自上而下的注意力可能是唯一的因素。因此,自上而下的注意力对于解释奇偶数时间停滞是必要的,有时也是充分的;显著性/适应性和时间准备是偶然因素。我们研究中揭示的这些关键边界条件为持续时间感知的神经模型提供了定量约束。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b97f/5549740/bff8a4f5d5df/pone.0182639.g001.jpg

文献AI研究员

20分钟写一篇综述,助力文献阅读效率提升50倍。

立即体验

用中文搜PubMed

大模型驱动的PubMed中文搜索引擎

马上搜索

文档翻译

学术文献翻译模型,支持多种主流文档格式。

立即体验