检测真实与动画代理生物运动的代理。

Detecting agency from the biological motion of veridical vs animated agents.

机构信息

York University, Department of Psychology, Toronto, Ontario, Canada.

出版信息

Soc Cogn Affect Neurosci. 2007 Sep;2(3):199-205. doi: 10.1093/scan/nsm011.

DOI:10.1093/scan/nsm011

PMID:18985141

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2569809/

Abstract

The ability to detect agency is fundamental for understanding the social world. Underlying this capacity are neural circuits that respond to patterns of intentional biological motion in the superior temporal sulcus and temporoparietal junction. Here we show that the brain's blood oxygenation level dependent (BOLD) response to such motion is modulated by the representation of the actor. Dynamic social interactions were portrayed by either live-action agents or computer-animated agents, enacting the exact same patterns of biological motion. Using an event-related design, we found that the BOLD response associated with the perception and interpretation of agency was greater when identical physical movements were performed by real rather than animated agents. This finding has important implications for previous work on biological motion that has relied upon computer-animated stimuli and demonstrates that the neural substrates of social perception are finely tuned toward real-world agents. In addition, the response in lateral temporal areas was observed in the absence of instructions to make mental inferences, thus demonstrating the spontaneous implementation of the intentional stance.

摘要

觉察能动性的能力是理解社会世界的基础。这种能力的基础是神经回路，它们会对高级颞叶和颞顶联合区中有意生物运动的模式做出反应。在这里，我们表明，大脑对这种运动的血氧水平依赖（BOLD）反应受到行为者的表现的调节。动态社会互动由真人或计算机动画代理来描绘，执行完全相同的生物运动模式。使用事件相关设计，我们发现，当相同的物理运动由真实而非动画代理执行时，与能动性的感知和解释相关的 BOLD 反应更大。这一发现对以前依赖计算机动画刺激的生物运动研究具有重要意义，并表明社会感知的神经基质对现实世界的代理进行了精细调整。此外，在没有进行心理推断的指令的情况下，在侧颞区观察到了这种反应，从而证明了意向立场的自发实施。

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